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Thymelaeaceae

Thymelaeaceae is a family of flowering plants in the order , encompassing 46–50 genera and 890–900 species distributed worldwide in tropical and temperate regions. These plants are primarily woody shrubs and small trees, with some herbaceous species and lianas, characterized by their tenacious, fibrous , simple entire leaves lacking stipules, and flowers featuring a prominent often lacking true petals but with petaloid scales. The family exhibits greatest diversity in tropical and , where numerous endemic genera occur, and includes both and forms adapted to diverse habitats from forests to arid shrublands. Taxonomically, Thymelaeaceae has been revised through molecular studies, revealing two main subfamilies: Octolepidoideae and Thymelaeoideae, with genera like Pimelea (about 110 species, mostly ) and Daphne (around 95 species, Eurasian) representing significant radiations. Flowers are typically bisexual and actinomorphic, arranged in spikes, racemes, or heads, with fruits ranging from capsules to drupes containing one to several seeds. Many species possess interxylary in their wood, a distinctive anatomical feature, and some produce or resins. Economically, certain genera hold importance; for instance, species yield , a resinous heartwood used in perfumes and , valued up to $100,000 per kg for high-quality grades and contributing significantly to trade in . Gonystylus (ramin) provides soft timber for construction and paper production, though has led to concerns. Ornamental cultivation is common for genera like , prized for fragrant flowers in gardens, while several species across the family, such as those in Pimelea and Wikstroemia, are known for due to diterpenoids and have traditional medicinal uses in treating ailments like conditions, though they pose risks if ingested. Ecologically, Thymelaeaceae species play roles in networks, often attracting moths or bees, and contribute to in fire-prone ecosystems where resprouting from lignotubers occurs.

Morphology and Anatomy

Vegetative characteristics

Thymelaeaceae species exhibit a diverse range of habits, predominantly as shrubs or small trees, though some occur as lianas, herbs, or rarely annuals. Most are woody perennials adapted to various environments, with or foliage depending on the and region. Stems in Thymelaeaceae are typically woody and flexible, featuring poorly lignified and a distinctive ring of . The is tough and fibrous, often with shiny cortical fibers that peel in strips, providing and sometimes serving as a source of cordage material. In certain genera, such as those with lianescent habits, stems develop prehensile branches or hooks for climbing, and cross-sections reveal scattered interxylary arcs. Some species produce resinous exudates from the stems, contributing to their ecological defenses. Leaves of Thymelaeaceae are simple and entire-margined, arranged alternately or oppositely without stipules, and borne on sessile or shortly petiolate bases. They vary from small, needle-like forms with single nerves to larger, flat blades with pinnate venation, often featuring leathery (coriaceous) texture and intramarginal veins that loop near the margins. Surface indumentum ranges from tomentose or puberulent in younger growth to glabrous at maturity, with broken leaves sometimes revealing silky fibers along the veins. For instance, in genera like Daphne and Gnidia, the leaves are typically elliptic to lanceolate, 2–10 cm long, and arranged in opposite pairs, enhancing their drought tolerance through reduced transpiration. Across approximately 50 genera, these traits underscore the family's adaptation to arid or seasonal habitats, where fibrous elements in stems and leaves provide resilience against environmental stress.

Reproductive structures

The flowers of Thymelaeaceae are typically bisexual, though unisexual or polygamous forms occur in some , and they are arranged in actinomorphic structures with parts united into a tube. A true is absent or reduced to small scales or glands at the of the tube, while the is petaloid, often brightly colored, and tubular or funnel-shaped with (3–)4–5(–6) imbricate lobes that serve an attractive function. Stamens number from 2 to 80 but are commonly 4–10, equal to or twice the number of lobes, and inserted in one or two whorls on the tube; the anthers are two-thecous, introrse, and dehisce longitudinally. The is superior, unilocular with a single pendulous anatropous , topped by a filiform and capitate . Inflorescences are predominantly terminal or axillary racemes, including condensed spikes, fascicles, umbels, or heads (capitula), and are frequently subtended by showy involucral bracts that enhance visual appeal. In genera like Daphne, flowers form dense terminal heads and are notably fragrant, aiding pollinator attraction during early spring blooming. Across the family's approximately 900 species, variations in floral sexuality are evident, such as the hermaphroditic flowers typical in many Wikstroemia species. Fruits in Thymelaeaceae are diverse but predominantly drupes or berries containing a single seed, though nuts or loculicidal capsules occur in some taxa; they often remain enclosed in the persistent base of the accrescent tube. are typically 1–8 per fruit, black with a thin or crustaceous coat, and may possess ; an or caruncle-like appendage is present in certain species, facilitating dispersal. Dispersal mechanisms primarily involve endozoochory by birds attracted to the fleshy fruits, as seen in genera like Dirca and , though some seeds are wind-dispersed or carried by insects such as hornets in .

Taxonomy and Systematics

Classification

Thymelaeaceae is placed within the order , part of the core eudicot , as recognized in the IV (APG IV) classification system. This positioning reflects molecular phylogenetic evidence integrating the family into sensu lato (Malvaceae s.l.), alongside families such as , Sterculiaceae, and Elaeocarpaceae. The family was originally described by in 1789 in his Genera Plantarum, where it was established based on morphological traits like the absence of petals and the presence of a tubular . Modern revisions, including APG IV published in 2016, have refined this classification by incorporating DNA sequence data, confirming Thymelaeaceae's distinct but basal position within . Key characteristics distinguishing Thymelaeaceae from related families include its tough, fibrous bark, simple entire leaves that are alternate or opposite and lack stipules, and flowers with a tubular featuring petaloid sepals but no true petals. In contrast, Elaeocarpaceae typically exhibit stipules, glands at the petiole or base, and a separate and with distinct petals, along with often winged seeds. These traits, combined with an inferior in some members and exotegmic seed coats, underscore Thymelaeaceae's morphological isolation within the order while sharing broader synapomorphies like mucilaginous tissues with other . The family is divided into two main subfamilies: Octolepidoideae and Thymelaeoideae. Octolepidoideae, comprising fewer genera (approximately eight) and primarily tropical taxa with a focus on species like those in Octolepis, is characterized by short or non-tubular flowers, multi-locular ovaries (3–12 locules), and restricted distribution in , , and . Thymelaeoideae, the larger and more subfamily with around 42 genera including Daphne and Pimelea, features tubular flowers, unilocular or bilocular ovaries, and petaloid sepals that serve as the primary attractive structures, encompassing a wider global range. This subdivision, formalized by Herber in 2003, relies on floral and anatomical diagnostics supported by early molecular studies.

Phylogenetic relationships

Thymelaeaceae occupies a basal position within the order , successive sister to the core Malvales clade following Neuradaceae, as supported by molecular phylogenies incorporating and nuclear data. This placement underscores the family's early divergence in the order, with shared synapomorphies such as exotegmic seeds aligning it with other Malvales lineages. Early molecular studies, such as Van der Bank et al. (2002), utilized rbcL and trnL-F sequences to establish the of Thymelaeaceae and elucidate relationships among and genera, revealing in groups like Gnidia and embedding Pimelea within it. More recent analyses employing complete genomes have refined these insights; for instance, a 2025 study comparing plastomes across 14 genera, including , identified variations in gene content (128–142 genes) and supported non- of as currently circumscribed, with D. genkwa nested within Wikstroemia. Similarly, 2025 phylogenetic reconstructions of species using data confirmed close relationships among Malesian taxa but highlighted with Gyrinops, emphasizing the need for expanded sampling. Updated phylogenies as of 2025 affirm the family comprises 50 genera and approximately 898 species. Evolutionary studies indicate significant habitat shifts within Thymelaeaceae, from tropical origins to temperate adaptations in lineages like , with a pre-Mediterranean divergence estimated over 2.8 million years ago driving sclerophyllous traits in Mediterranean species. Polyploidization events, such as autotriploid formation in Thymelaea hirsuta via unreduced gametes, suggest reticulate evolution contributing to diversification, though interspecific hybridization remains underexplored. Open questions persist regarding the monophyly of genera like and Gnidia, with incomplete taxon sampling—particularly in Malesian groups such as and Gyrinops—limiting resolution of subfamily boundaries and broader relationships.

Genera

The Thymelaeaceae family encompasses approximately 46–50 genera and 890–900 species, with ongoing taxonomic refinements reflecting advances in . This diversity is unevenly distributed, with the largest genera accounting for a significant portion of the species richness; Pimelea stands out as the most speciose, comprising 147 accepted species predominantly as shrubs native to and . Gnidia is another large genus, with 104 accepted species predominantly as herbs and shrubs native to tropical and . Similarly, Daphne includes 97 species of mostly temperate shrubs, valued for their ornamental qualities in , while Wikstroemia contains 93 species distributed across , , and the Pacific. Other notable genera highlight the family's ecological breadth; Phaleria, with 25 species of tropical trees and shrubs, occurs in and the Pacific, often associated with medicinal applications in traditional practices. Genera delimitation remains challenging due to extensive morphological overlap in floral and vegetative traits, such as variable structures and leaf arrangements, which has prompted revisions based on phylogenetic evidence. For instance, molecular studies have revealed non-monophyly in groups like Gnidia, leading to proposed mergers and reassignments among related taxa. Endemic genera underscore regional endemism, exemplified by Octolepis, a small of 6–7 shrubby species restricted to continental and , featuring distinctive eight-lobed anthers that define its placement in the subfamily Octolepidoideae. As of 2025, (POWO) confirms these accepted names and counts, integrating recent nomenclatural updates from global floras and phylogenetic analyses to stabilize the . Phylogenetic placements of select genera, such as Daphne and its allies, indicate close evolutionary ties within the core Thymelaeoideae, though full resolution awaits broader sampling.

Distribution and Ecology

Geographic range

Thymelaeaceae exhibits a across tropical and temperate regions worldwide, though it is notably absent from northern high latitudes and truly cold climates. The family is more diverse in the , with major centers of species richness in (approximately 400 species), , and , alongside significant representation in , , and the . Globally, it comprises 46–50 genera and 890–900 species, with concentrations reflecting historical biogeographic patterns rather than uniform spread. In Africa, the highest diversity occurs, particularly in tropical and southern regions, where over 200 species are recorded in alone, including prominent genera such as Gnidia with around 110 predominantly African species. Tropical Africa hosts numerous Gnidia species, while features additional diversity in genera like and Lachnaea. contributes further to African continental diversity with at least 14 endemic Gnidia species, making it the largest genus there. In , about 100 species across 7 native genera underscore another key center, with distributions extending to temperate and tropical zones. The family also occurs in the Northern Hemisphere, with regional highlights including Daphne species in the Mediterranean basin of Europe and North Africa, and Daphnopsis in the Neotropics of the Americas, where around 65 species are known. In Asia, diversity spans from China (115 species across 9 genera) to Malesia, where recent assessments indicate expanding recognized distributions and notable species richness.

Habitats and ecological roles

Thymelaeaceae species predominantly inhabit Mediterranean shrublands, tropical savannas, and montane forests, often favoring well-drained, sandy or rocky soils that support their shrubby growth forms. In the , a hotspot, genera such as thrive in nutrient-poor, sandy vegetation, contributing significantly to the area's exceptional plant diversity with over 9,000 species in a compact area. These habitats provide the dry, open conditions essential for the family's , where species like Thymelaea velutina occupy both coastal dunes and inland montane zones. Many Thymelaeaceae exhibit adaptations to fire-prone environments, with some species capable of resprouting from lignotubers or rootstocks after wildfires, enhancing their persistence in disturbance-driven ecosystems like Mediterranean maquis and fynbos shrublands. Pollination is primarily facilitated by bees and settling moths, which are attracted to the family's often fragrant, tubular flowers; for instance, moths play a critical role in fruit set for Aquilaria species in tropical settings. As pioneer species, Thymelaeaceae plants frequently colonize disturbed sites, such as roadsides and post-fire clearings, stabilizing soils and facilitating succession in savanna and shrubland ecosystems. Ecological interactions include symbiotic associations with arbuscular mycorrhizal fungi, which aid nutrient uptake in the family's often oligotrophic habitats, as observed in roots of and species. against herbivory is bolstered by resinous exudates and toxic compounds in many genera, deterring browsers in resource-limited environments. concerns are pronounced for several Daphne taxa, which face endangerment due to and loss from and in Mediterranean and island ecosystems. Recent studies from 2024 underscore in Thymelaeaceae genera like Gnidia, where maintain viability through physiological adaptations such as during extreme dry periods in habitats. These traits highlight the family's in arid hotspots, supporting their role in maintaining stability amid climate variability.

Human Uses and Interactions

Ethnobotanical and economic applications

Species of the Thymelaeaceae family have been utilized in various traditional non-medicinal applications across and , particularly for fiber extraction from to produce and cordage. In the Himalayan of , , the inner fibrous of Daphne papyracea has been harvested by the Monpa for over 1,000 years to manufacture handmade used in Buddhist scriptures, flags, and local crafts. This process involves stripping from mature shrubs aged 5-6 years, soaking and boiling it in ash water, and beating it into pulp for sun-drying into sheets, which are sold locally at modest prices to support community economies. In , genera such as Gnidia provide versatile materials for dyes and binding. The yellow flowers of several Gnidia species have historically been employed by indigenous groups, including the , to and , offering a natural colorant in traditional crafts. Additionally, the stringy bark of Gnidia is used to tie wood bundles, while in , Gnidia glauca bark serves for producing ropes, threads, and decorative items like mats, with stems and branches commonly gathered as fuelwood in rural community forests, accounting for 29% of exploitation activities. The genus Wikstroemia holds economic value in Pacific practices, particularly in , where species like Wikstroemia oahuensis yield one of the strongest native fibers from , traditionally twisted into ropes and braids for practical uses such as nets and shelter construction. These fibers, comparable in strength to those from New Zealand flax, supported historical self-sufficiency in remote communities. Culturally, Wikstroemia branches have been incorporated into ceremonial firewood during rituals, underscoring their role in spiritual and social traditions in Polynesian contexts. Among the most significant economic applications of Thymelaeaceae are the production of from Aquilaria species and timber from Gonystylus (ramin). , a resinous heartwood formed in response to , is harvested primarily from wild trees in and used in perfumes, , and , with high-quality grades valued up to $100,000 per kg. The global trade in exceeds billions of dollars annually, but overexploitation has led to listings under Appendix II since 1995, prompting efforts toward sustainable cultivation; as of 2025, initiatives in emphasize as a cultural and economic asset through regulated farming and for induced resin formation. Gonystylus bancanus (ramin) provides light-colored, soft timber used in construction, furniture, and paper production, particularly in . Overharvesting has caused population declines, resulting in Appendix II listing since 2005, with ongoing concerns about in as of 2024; measures include replanting programs to mitigate depletion of this slow-growing species. Economically, Thymelaeaceae exploitation remains largely artisanal with limited large-scale commercial cultivation, though sustainable harvesting practices are emerging to preserve resources amid growing demand for natural fibers. In regions like , assessments indicate low overall exploitation rates (3.92% of plants affected), suggesting potential for to bolster rural livelihoods without depleting wild populations. Historical uses, such as Gnidia glauca for wrapping , highlight untapped opportunities in eco-friendly materials, though overharvesting risks persist in vulnerable forest habitats.

Medicinal properties and toxicity

Members of the Thymelaeaceae family contain a variety of bioactive compounds, including , diterpenoids, and lignans, which contribute to their pharmacological potential. These compounds have been investigated for therapeutic applications, particularly in and anti-cancer contexts. Flavonoids isolated from Daphne species, such as genkwanin and , exhibit significant effects by modulating production and reducing symptoms in experimental models. Traditionally, extracts from Daphne genkwa have been used in Chinese medicine to treat skin ailments like eczema and due to these properties. For anti-cancer activity, genkwadaphnin, a daphnane-type diterpenoid from Daphne genkwa, inhibits tumor cell proliferation and invasion, particularly in , by targeting pathways like signaling. Recent pharmacological studies from 2024 and 2025 have highlighted the potential of Thymelaeaceae compounds in inhibition and tumor suppression. Diterpenoids from Daphne pseudomezereum demonstrate strong anti- activity by blocking in assays. In Wikstroemia species, biflavonoids contribute to tumor suppression through antiproliferative effects on cancer lines. Similarly, extracts from show anti-cancer properties via pathway modulation, inducing in models. Despite these benefits, Thymelaeaceae plants are notorious for their toxicity, primarily due to irritant diterpenes like mezerein, which cause severe dermatitis and skin inflammation upon contact. These daphnane diterpenoids act as potent tumor promoters in some contexts while exhibiting cytotoxicity. Ingestion of Thymelaeaceae materials can lead to acute gastrointestinal distress, including nausea, vomiting, and abdominal pain, as well as potential cardiac complications from organ damage. Prolonged exposure may result in hemolysis and harm to the heart, kidneys, and liver. Genera like Stellera, particularly Stellera chamaejasme, exhibit exceptionally high , affecting through inhalation or grazing and disrupting in humans upon consumption. Regulatory bodies, such as those referenced in compendia, issue warnings for herbal products containing Thymelaeaceae due to risks of cellular and clinical from and , recommending processing to mitigate dangers. Recent reviews emphasize the need for standardized dosing to balance therapeutic benefits against adverse effects.

Ornamental cultivation

Several species within the Thymelaeaceae family, particularly in the genus Daphne, are prized in ornamental horticulture for their fragrant blooms and compact growth habits suitable for temperate gardens. Daphne odora, native to East Asia, is a popular evergreen shrub valued for its intensely fragrant pink or white flowers that appear in late winter to early spring, often before the leaves emerge, adding early color to borders and woodland gardens. Similarly, Daphne mezereum, a deciduous species from Europe and western Asia, produces clusters of rosy-purple flowers in late winter or early spring, followed by bright red berries, making it a favorite for naturalistic plantings in cooler climates. These species thrive in USDA hardiness zones 5-9, depending on the cultivar, and are commonly grown in regions with mild winters such as parts of Europe and the Pacific Northwest of North America. Successful cultivation of ornamental Thymelaeaceae requires specific conditions to mimic their native habitats. These plants prefer moist but well-drained, slightly acidic 6.0-7.0) enriched with like , planted in partial shade to protect from intense midday sun, which can scorch leaves. Full sun is tolerated in cooler climates, but overexposure in warmer areas may reduce flowering. is typically achieved through semi-ripe cuttings taken in late summer, rooted under with bottom heat, or by sowing fresh seeds that require cold stratification for ; is also effective for some . Minimal is advised post-flowering to maintain shape, as heavy cuts can stress the shallow . Challenges in growing these ornamentals include vulnerability to root rot caused by pathogens like Phytophthora spp., which thrives in waterlogged soils and can lead to sudden decline; prevention involves ensuring excellent drainage, such as planting in raised beds or amending heavy clay with grit. All parts of Daphne species are highly toxic if ingested, causing severe gastrointestinal distress in humans and pets, and the sap can irritate skin, necessitating caution in family gardens or near animals. Recent hybrid developments, such as Daphne x 'Perfume Princess' introduced in the 2010s and noted for its extended bloom period and improved disease resistance, have enhanced reliability for gardeners; similar advancements continue in breeding programs to address susceptibility issues. In ornamental markets, Daphne hybrids from Asian origins are increasingly traded in Europe, reflecting growing demand for fragrant winter shrubs.

References

  1. [1]
    Thymelaeaceae | Plants of the World Online | Kew Science
    Thymelaeaceae Juss. General: The Thymelaeaceae are composed of 46-50 genera and 890-900 ... Meisn. General: of this species. Many species within Thymelaeaceae ...
  2. [2]
    Thymelaeaceae - Families of Flowering Plants of Australia
    Thymelaeaceae This is a widespread tropical and temperate family of moderate size, most diverse in Australia and tropical Africa.
  3. [3]
    Thymelaeaceae | Flora of Australia - Profile collections
    May 1, 2021 · An almost worldwide family of 55–60 genera and over 500 species, concentrated in tropical and southern Africa and from southeast Asia to ...
  4. [4]
    Molecular phylogenetic analyses based on the complete plastid ...
    The family Thymelaeaceae comprises 45 genera and about 800 species widely distributed in both temperate and tropical regions (Herber, 2003). Recent taxonomic ...
  5. [5]
    [PDF] THYMELAEACEAE
    Worldwide, the family consists of 52 genera and ~450 species, with lianas in 6 genera. In the Neotropics, the family is represented by 7 genera and ~75 species, ...Missing: botany | Show results with:botany
  6. [6]
    Aquilaria Species (Thymelaeaceae) Distribution, Volatile and Non ...
    Dec 20, 2021 · Economic Value. High-quality agarwood can be sold at US $100,000 per kg, while those of poor quality can only be sold at US $100 per kg.
  7. [7]
    The identity of eaglewood (Gyrinops, Thymelaeaceae), a new ...
    Although this family is a small taxon, it has very varied uses, giving them a significant economic importance in the regions where they grow (2, 3).
  8. [8]
    [PDF] EFFECTIVENESS OF Daphne L. (Thymelaeaceae) IN VITRO ...
    Species and cul- tivars belonging to this genus are frequently used as valuable ornamental plants which are more and more willingly used in European green areas ...<|separator|>
  9. [9]
    Floral adaptations to nocturnal moth pollination in Diplomorpha ...
    Nov 6, 2008 · Many members of the family Thymelaeaceae are highly praised and economically important for the production of fragrant scent, but little is ...
  10. [10]
    Thymelaeaceae Juss. | Plants of the World Online | Kew Science
    Morphology Stem: Stems and branches with tough cortical, often shining, fibres; Morphology Leaves: Leaves alternate or opposite, sessile or shortly petiolate ...Missing: vegetative | Show results with:vegetative
  11. [11]
    Thymelaeaceae - FNA - Flora of North America
    Nov 5, 2020 · Distribution. North America ... 450 (4 genera, 7 species in the flora). Classification of Thymelaeaceae within the dicotyledons is uncertain.
  12. [12]
    Dipterocarpaceae - an overview | ScienceDirect Topics
    Dipterocarpaceae is defined as a family of resinous trees characterized by whitish bark, entire penninerved leaves, and medicinally useful resin and bark, with ...<|separator|>
  13. [13]
    Aquilaria in Flora of China @ efloras.org
    Trees or treelets. Leaves alternate, leaf blade pinnately veined; veins slender, ascending toward margins and joining several intramarginal veins.
  14. [14]
    Daphne odora | Landscape Plants | Oregon State University
    Flowers appear in early spring, in 2.5 cm terminal heads, they are rosy-purple to deep red, (also a white alba form), with creamy pink throats, very fragrant.Missing: morphology | Show results with:morphology
  15. [15]
    [PDF] frugivory in dirca (thymelaeaceae) - Phytoneuron
    Frugivory has been suggested as a likely short-distance dispersal mechanism, as evidenced by multiple seedlings growing from a relatively small area, which ...
  16. [16]
    Plant-defense mimicry facilitates rapid dispersal of short-lived seeds ...
    Aug 8, 2022 · We demonstrate through field observations and experiments that rapid dispersal is essential for the unusually short-lived seeds of Aquilaria sinensis.
  17. [17]
    https://academic.oup.com/botlinnean/article/181/1/1/2416499
  18. [18]
    Malvales
    Jun 30, 2025 · The orange colouring of Bixa orellana, annatto, comes from exudate/latex obtained from pigment glands in the seeds which contains large amounts ...
  19. [19]
    Thymelaeaceae de Jussieu, 1789 - IRMNG
    Biota · Plantae (Kingdom) · Tracheophyta (Phylum) · Spermatophytina (Subdivision) · Angiospermae (Superclass) · Magnoliopsida (Class) · Malvales (Order) ...
  20. [20]
    http://www.mobot.org/MOBOT/Research/curators/pdf/Rogers_2005_Octolepis_Adansonia.pdf
  21. [21]
    Thymelaeaceae | SpringerLink
    Trees, shrubs, lianas, or rarely herbs, evergreen or deciduous, usually poisonous, often with intraxylary phloem, more rarely also with interxylary phloem.
  22. [22]
    Taxonomy in the light of incongruence: An updated classification of ...
    Jan 23, 2025 · Stellate hairs and stipules are common characters in all members of the order, but these are absent in Thymelaeaceae (characters D and E, Fig.
  23. [23]
    Molecular Phylogenetics of Thymelaeaceae with Particular ...
    Aug 9, 2025 · Phylogenetic relationships of the African and Australian Thymelaeaceae were investigated by parsimony analysis of 41 rbcL nucleotide ...
  24. [24]
    Evolutionary dynamics of the chloroplast genome in Daphne ...
    Oct 16, 2025 · Comparative analysis of chloroplast genomes from 14 genera of Thymelaeaceae revealed variation in gene content, ranging from 128 to 142 ...
  25. [25]
    Phylogenetic analysis of the Critically Endangered Aquilaria ...
    Jul 1, 2025 · Comparison of eight complete Chloroplast genomes of the endangered Aquilaria tree species (Thymelaeaceae) and their phylogenetic relationships.Taxonomic Treatment · Taxon Sampling · Dna Barcode-Based...
  26. [26]
    Thymelaeaceae - an overview | ScienceDirect Topics
    The Thymelaea genus (90 % of the species) has a distinctive distribution around the Mediterranean region, mainly at the western Iberia peninsula, Balearic ...
  27. [27]
    Time‐calibrated phylogeny of Daphne (Thymelaeaceae): Pre ...
    Sep 12, 2023 · The genus Daphne Tourn. ex L. (Thymelaeaceae) contains shrubs mainly distributed in southern Asia, with some species in the MB and surrounding ...
  28. [28]
    Incidence and evolutionary relevance of autotriploid cytotypes in a ...
    Our data indicate that these triploids most likely originate from recurrent autopolyploidization events caused by the fusion of reduced and unreduced gametes.<|control11|><|separator|>
  29. [29]
    Molecular phylogenetic analyses based on the complete plastid ...
    Molecular phylogenetic analyses based on the complete plastid genomes and nuclear sequences reveal Daphne (Thymelaeaceae) to be non-monophyletic as current ...
  30. [30]
    Gnidia (Thymelaeaceae) is not monophyletic - ResearchGate
    Aug 7, 2025 · Such inadequate taxonomic sampling has failed to yield insights into phylogenetic relationships within Daphne or between Daphne and other ...
  31. [31]
    Thymelaeaceae Juss. | Plants of the World Online | Kew Science
    Classification ; Kingdom Plantae ; Phylum Streptophyta ; Class Equisetopsida ; Subclass Magnoliidae ; Order. Malvales. View Order Tree opens in a new tab.
  32. [32]
    Gnidia L. | Plants of the World Online | Kew Science
    Flora of Tropical East Africa · A. Robyns in F.A.C. Thymelaeaceae: 36 (1975) · Aymonin in Fl. Gabon 11: 88 (1966) · Gastaldo in Webbia 24: 338 (1969) · L., Gen. Pl.
  33. [33]
    Daphne Tourn. ex L. | Plants of the World Online | Kew Science
    Accepted Species. Includes 97 Accepted Species. KB. Daphne acutiloba Rehder ... POWO follows these authorities in accepting this name: Govaerts, R. (2000) ...<|control11|><|separator|>
  34. [34]
    Wikstroemia Endl. | Plants of the World Online | Kew Science
    Thymelaeaceae · View Family Tree opens in a new tab. Genus. Wikstroemia. View in ... POWO follows these authorities in accepting this name: Govaerts, R ...
  35. [35]
    Phaleria Jack | Plants of the World Online | Kew Science
    Accepted Species. Includes 25 Accepted Species. KB. Phaleria acuminata (A.Gray) Gilg · Phaleria angustifolia A.C.Sm. Phaleria biflora (C.T.White) Herber ...
  36. [36]
    Molecular phylogenetic analyses based on the complete plastid ...
    1. Introduction. The family Thymelaeaceae comprises 45 genera and about 800 species widely distributed in both temperate and tropical regions (Herber, 2003). ...
  37. [37]
    [PDF] A revision of Octolepis Oliv. (Thymelaeaceae, Octolepidoideae)
    Nov 26, 2004 · 750 spp.). Subfamily Octolepidoideae is clearly distin- guished morphologically from Thymelaeoideae by its short or non-tubular flower, 3-12 ...
  38. [38]
    Thymelaeaceae - Jepson Herbarium
    Thymelaeaceae. DAPHNE FAMILY ; Habit: shrub [herb, tree, vine], often ill-smelling, poisonous. ; Stem: erect, flexible, branched, generally with raised, woody ...
  39. [39]
    A taxonomic revision of the Gnidia linearifolia (Wikstr.) B.Peterson ...
    The genus Gnidia L. (excluding Lasiosiphon Fresen.) (Thymelaeaceae subfamily Thymelaeoideae) comprises approximately 110 species of predominantly African ...
  40. [40]
    [PDF] A Revision of Malagasy Gnidia (Thymelaeaceae, Thymelaeoideae)
    Jul 7, 2009 · neglecta Z. S. Rogers, is described. These changes result in the recognition of 14 species (Appendix 1), all endemic, making Gnidia the largest ...
  41. [41]
    Family THYMELAEACEAE - PlantNET - FloraOnline
    Description: Mostly shrubs, less commonly herbs, trees or climbers; phloem fibres long in the thin bark so that the bark is difficult to break.Missing: botany | Show results with:botany<|control11|><|separator|>
  42. [42]
    Thymelaeaceae in Flora of China @ efloras.org
    About 48 genera and ca. 650 species: widely distributed in both hemispheres; nine genera and 115 species (89 endemic) in China.
  43. [43]
    (PDF) Reproductive ecology of Thymelaea velutina (Thymelaeaceae)
    Aug 6, 2025 · It is endemic to the Balearic Islands (Western Mediterranean) and is found both in dunes and mountain areas.
  44. [44]
    Insight from an endemic Daphne arbuscula (Thymelaeaceae)
    May 9, 2024 · The role of endemic species in global biodiversity is pivotal, and understanding their biology and ecology is imperative for their fitness ...
  45. [45]
    [PDF] PLANT DIVERSITY OF THE CAPE REGION OF SOUTHERN AFRICA1
    Both geophytes and annuals are primarily adapted to seasonally dry climates and escape the time of year unfavorable for growth by retreating to underground ...
  46. [46]
    Cape Floristic Region - Species | CEPF
    The Cape Floristic Region is home to the greatest non-tropical concentration of higher plant species in the world, with 9,000 species crammed into its small ...Missing: Thymelaeaceae | Show results with:Thymelaeaceae
  47. [47]
    [PDF] Phytogeography of Passerina (Thymelaeaceae) - Semantic Scholar
    Many species are pioneers growing along roadsides and in disturbed places. Species near-endemic to the CFR are more wide spread (Table 1). They have adapted ...
  48. [48]
    Distribution of seed dormancy classes across a fire-prone continent
    Thymelaeaceae (12), Ericaceae (11), Rhamnaceae (70). Chenopodiaceae (114) ... Evolutionary ecology of resprouting and seeding in fire-prone ecosystems.
  49. [49]
    Do trait–growth relationships vary with plant age in fire‐prone ...
    Mar 11, 2025 · Each data point is a species-mean trait value considered at one plant age (time since resprouting after fire). Ages are colour-coded, and ...
  50. [50]
    (PDF) Insect Pollination of Aquilaria crassna (Thymelaeaceae)
    Previous studies have shown that several Daphne species are visited by various insects such as bees, moths and beetles, but their visitation frequency is very ...
  51. [51]
    [PDF] Taxonomy of the genus Passerina (Thymelaeaceae)
    Lin naeus (1754) placed the genus Passerina under Class. VIII. Octandria. 1. Monogynia. This system was followed until De Jussieu (1789) instated the family ...
  52. [52]
    Characterization of Arbuscular Mycorrhizal Fungus Communities of ...
    Nov 14, 2014 · This study investigated arbuscular mycorrhizal (AM) fungus community structure in roots and rhizosphere soils of A. crassna and T. grandis from ...
  53. [53]
    [PDF] associated fungal communities in Daphne arbuscula ...
    Jun 4, 2024 · In these interactions, mycorrhiza is recognized as one of the most fun- damental mutually beneficial symbiotic relationships between plants and ...
  54. [54]
    The mechanical wound transcriptome of three-year-old Aquilaria ...
    Aug 9, 2025 · Chinese agarwood is formed in the aromatic resinous wood formed in Aquilaria sinensis (Lour.) Gilg (botanical family: Thymelaeaceae).
  55. [55]
    Characterization of microsatellite markers for the endangered ... - NIH
    The endangered shrub Daphne rodriguezii (Thymelaeaceae) is endemic to the Balearic island of Menorca, where fragmentation and severe population decline are ...Missing: habitat | Show results with:habitat
  56. [56]
    Insight from an endemic Daphne arbuscula (Thymelaeaceae)
    Our primary goal was to investigate the sexual reproduction level of the endangered Western Carpathian endemic Daphne arbuscula (Thymelaeaceae), which inhabits ...Missing: loss | Show results with:loss
  57. [57]
    [PDF] Flowering Plants of Africa - SANBI
    The species is relatively drought resistant, but it may become dormant during periods of extreme drought (Nitcheu Ngemakwe et al. 2017). Its Red List status ...
  58. [58]
    (PDF) THYMELAEACEAE - ResearchGate
    Aug 8, 2025 · (Thymelaeaceae) is a genus of ± 40 species Manning and Goldblatt, 2012) largely endemic to South Africa, but with three or four species in ...
  59. [59]
    Glycome Profiling and Bioprospecting Potential of the Himalayan ...
    May 23, 2022 · The inner fibrous bark of the plant is an important source of handmade paper. The thickness and length of the D. papyracea fibers are ...
  60. [60]
    Factsheet -Thymelaeaceae
    ### Summary of Gnidia Uses for Dyes and Other Economic Applications in Africa
  61. [61]
    (PDF) Journal of Ecology and The Natural Environment Vulnerability ...
    Nov 5, 2018 · The motivating factors for the species' domestication were the fragility of its habitat, the potential high future demand for its products and ...
  62. [62]
    Wikstroemia oahuensis - Native Plants Hawaii - Viewing Plant
    ... Thymelaeaceae. ... Peterson (1990) states that “Species of Wikestroemia have furnished one of the strongest Hawaiian fibers, used in making ropes and braids.
  63. [63]
    Bioactive Components and Pharmacological Action of Wikstroemia ...
    Wikstroemia indica is used as antipyretics, detoxicants, expectorants, vermifuges, and aborticides. It contains flavonoids, biflavonoids, coumarins, lignans, ...Missing: medicinal properties
  64. [64]
    Tigliane and daphnane diterpenoids from Thymelaeaceae family
    These diterpenoids are known as toxic components, while they have been shown to exhibit a wide variety of biological activities, such as anti-cancer, anti-HIV, ...
  65. [65]
    Anti-rheumatoid arthritis effects of flavonoids from Daphne genkwa
    Methods: The anti-inflammatory and immunomodulatory effects of total flavonoids (TF) and four flavonoid components (genkwanin, hydroxygenkwanin, luteolin ...
  66. [66]
    Anti-rheumatoid arthritis effects of flavonoids from Daphne genkwa
    Flavonoids from Daphne genkwa had anti-inflammatory activity and immunomodulatory activity. •. Genkwanin was the most effective anti-RA component of ...
  67. [67]
    Genkwadaphnin inhibits growth and invasion in hepatocellular ...
    Sep 22, 2020 · Here, we evaluated the anti-cancer activity of some daphnane-type diterpenes from Daphne genkwa. GD exhibited the most significant anti ...
  68. [68]
    Anti-HIV diterpenoids from Daphne pseudomezereum - ScienceDirect
    The plants of the genus Daphne (Thymelaeaceae) are known to be sources of anti-HIV diterpenoids. Therefore, the present study focused on investigating the ...
  69. [69]
    Wikstroemia: A Review on its Phytochemistry and Pharmacology
    Wikstroemia plants have over 290 metabolites, including terpenoids, and show anticancer, anti-inflammatory, and other beneficial effects.<|control11|><|separator|>
  70. [70]
    DLBS1425, a Phaleria macrocarpa (Scheff.) Boerl. extract confers ...
    Phaleria macrocarpa (Scheff.) Boerl. (Thymelaeaceae), an Indonesian native plant, has been used to treat various diseases in Indonesia.
  71. [71]
    Mezerein - an overview | ScienceDirect Topics
    Mezerein and related daphnane diterpenes are characteristic constituents of the Thymelaeaceae family and the Daphne genus, attributing to their toxicity [216].
  72. [72]
    Tigliane and daphnane diterpenoids from Thymelaeaceae family
    Jun 9, 2023 · This review focuses on naturally occurring tigliane and daphnane diterpenoids from plants of the Thymelaeaceae family and provides an overview ...<|control11|><|separator|>
  73. [73]
    Research progress on the toxicity of toxic Traditional Herbals from ...
    Mar 25, 2024 · 28 herbals from Thymelaeaceae are toxic at cellular, animal, and clinical levels. Terpenes and flavonoids are the main toxic components.
  74. [74]
    Thymelaeaceae - an overview | ScienceDirect Topics
    There are numerous applications for them, such as treating leukemia, AIDS, and liver cancer. It should be noted that around 20% of these plants have shown ...Missing: economic importance
  75. [75]
    Ingesting Stellera chamaejasme Significantly Impacts the ... - MDPI
    Oct 30, 2024 · L. (Thymelaeaceae, Stellera ; is highly toxic. Not only does it exhibit toxic effects on bacteria and pests, but it is also extremely hazardous ...
  76. [76]
    Compendium of botanicals reported to contain naturally occuring ...
    The Compendium is intended to help with the safety assessment of botanicals and botanical preparations intended for use as food supplements, by facilitating ...
  77. [77]
    Research progress on the toxicity of toxic Traditional Herbals from ...
    Mar 25, 2024 · Conclusions: Medicinal plants in the Thymelaeaceae exhibit significant pharmacological activities, such as anti-HIV and anti-tumor effects, ...Missing: latex resinous exudates
  78. [78]
    How to grow daphnes - RHS
    Where to plant · Heavy soil – grow in a raised bed, which will provide better drainage. · Chalky soil – D. · Full sun – choose dwarf species such as D. · Deep shade ...
  79. [79]
    Daphne odora - Plant Toolbox - NC State University
    Fragrant daphne is a woody, densely-branched, broadleaf evergreen shrub that can grow to be 2 to 4 feet wide and 4 to 6 1/2 feet tall.Missing: morphology | Show results with:morphology
  80. [80]
    https://pubmed.ncbi.nlm.nih.gov/38110134/
  81. [81]
    How to Grow and Care for Daphne Shrubs - The Spruce
    Aug 14, 2024 · Plant daphne in full sun to partial shade, amend soil with compost, ensure well-drained, slightly acidic soil, water as needed, and fertilize ...Missing: ornamental | Show results with:ornamental
  82. [82]
    Daphne - Care Guide - Burncoose Nurseries
    Soil conditions and fertiliser. A neutral soil which is neither acidic nor alkaline will suit all types of daphne. Daphne mezereum is the most chalk tolerant.
  83. [83]
    Daphne-Root Rot | Pacific Northwest Pest Management Handbooks
    Improve water drainage around plantings. · Reduce irrigation amount and frequency. · Maintain at a slightly acidic pH and do not over-fertilize with nitrogen.Missing: cultivation | Show results with:cultivation
  84. [84]
    https://www.thespruce.com/how-to-grow-daphne-shrubs-2132712
  85. [85]
    Daphne x 'Perfume Princess' | Briggs Nursery
    Good disease resistance. Un-fussy, grows almost anywhere. It'll grow in any soil but prefers soils that are slightly acid and free draining. Full sun to ...
  86. [86]
    The prominent rise of Daphne 'Perfume Princess' - AIPH
    May 1, 2023 · Tesselaar's new Daphne 'Perfume Princess' adds beauty, compactness and an exquisite fragrance, offering plant buyers something exciting.