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Phellinus igniarius
Phellinus igniarius
Phellinus igniarius
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Phellinus igniarius
Scientific classification Edit this classification
Kingdom: Fungi
Division: Basidiomycota
Class: Agaricomycetes
Order: Hymenochaetales
Family: Hymenochaetaceae
Genus: Phellinus
Species:
P. igniarius
Binomial name
Phellinus igniarius
(L.) Quél. (1886)
Synonyms
  • Boletus igniarius L. (1753)
  • Phellinus alni (Bondartsev) Parmasto, 1976

Phellinus igniarius (syn. Phellinus trivialis), commonly known as the willow bracket, fire sponge, false tinder polypore, punk ash polypore,[1] or false tinder conk,[2] is a fungus of the family Hymenochaetaceae. Like other members of the genus of Phellinus, it lives by saprotrophic nutrition, in which the lignin and cellulose of a host tree is degraded and is a cause of white rot.

The fungus forms perennial fruiting bodies that rise as woody-hard, hoof or disc-shaped brackets from the bark of the infested living tree or dead log. The tree species is often willow but it may be commonly found on birch and alder and other broad leafed trees. The top is covered with a dark, often cracked crust, a stem is present only in its infancy. Unlike most fungi, it has a hard woody consistency and may persist for many years, building a new surface layer each year.

Description

[edit]

The bracket measures 5–20 centimetres (2–8 in) in diameter,[2] but in rare cases may be 40 cm wide. The thickness of the bracket varies from 2–12 cm (1–4+12 in), to 20 cm in exceptional cases. These conks are among the longest persisting fungal fruit bodies, displaying up to eighty annual growth rings.[3] The fungus has small, grayish brown pores, about 4–6 per square millimetre. Its tubes have a length of about 2–7 mm (1814 in). Each year, the fungus forms a new layer of tubes superimposed on the old layers. Unreleased old spores often find themselves sealed in by later growth that clog the tubes and they appear in cross section as brown spots.

The brown flesh is 10–20 cm (4–8 in) thick[1] and becomes harder with age and dryness, softer with humidity. The smell of the fruit body has a pronounced mushroom character, the flavor of the meat is bitter. Upon contact with potassium hydroxide, the flesh is dyed black. The spores form a whitish cast.[2][4]

Similar species

[edit]

Similar species include P. arctostaphyli, P. pomaceoides, P. tremulae, Fulvifomes robiniae, and members of Fomitiporia.[1]

Ecology

[edit]

The species is a polypore, with pores on the underside that bear basidiospores. The species causes a white rot that leads to the tree to decay.[5] Woodpeckers are known to favour its site as a good place to excavate a nesting chamber since the wood will be soft and weaker around its location.

Uses

[edit]

The species is considered to be inedible,[6] being woodlike.[2] There is some evidence that it may have potential medicinal uses. A 2014 study in mice suggests an extract of the mushroom fruit body may have a high therapeutic potential for ameliorating multiple sclerosis progression.[7]

It was prized as kindling material. In Alaska, it is burnt by locals, and the ash (punk ash) is mixed with chewing tobacco to enhance the effect of the nicotine.[5]

[edit]
Phellinus igniarius
Mycological characteristics
Pores on hymenium
No distinct cap
Hymenium attachment is irregular or not applicable
Lacks a stipe
Ecology is parasitic
Edibility is inedible
  • Phellinus igniarius seen in winter in Strakonice District, Czech Republic
    Phellinus igniarius seen in winter in Strakonice District, Czech Republic
  • Illustrated in Schmeil's scientific atlas
    Illustrated in Schmeil's scientific atlas
  • The pores on the lower surface, magnified
    The pores on the lower surface, magnified
  • Illustrated in James Sowerby's Coloured Figures of English Fungi or Mushrooms, (published 1797–1809)
    Illustrated in James Sowerby's Coloured Figures of English Fungi or Mushrooms, (published 1797–1809)

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Phellinus igniarius

View on Grokipedia
from Grokipedia
Phellinus igniarius is a fungus belonging to the family Hymenochaetaceae, commonly known as the willow bracket, false tinder , or fire . It is characterized by tough, hoof-shaped fruiting bodies that measure up to 40 cm across and 20 cm thick, with a initially pale upper surface that darkens to grey-black and cracked with age, and a porous underside featuring 4-6 pores per millimeter. This wood-decay species primarily causes white rot in the heartwood of hardwoods, decomposing , , and hemicelluloses through enzymatic action. Taxonomically, Phellinus igniarius is classified within the kingdom , phylum , class , order Hymenochaetales, and family Hymenochaetaceae, with synonyms including Fomes igniarius and Phellinus trivialis. Originally described as Boletus igniarius by Linnaeus in 1753, it was reclassified by Quélet in 1886. The fungus reproduces via basidiospores released from its during summer and autumn, and it forms intersterility groups that influence mating compatibility. Its fruiting bodies are , persisting for years on infected hosts, and exhibit no significant or taste. Ecologically, Phellinus igniarius acts as both a parasite on living trees and a saprobe on dead wood, primarily targeting species such as willows (Salix spp.), birches (Betula spp.), maples (Acer spp.), alders (Alnus spp.), and oaks (Quercus spp.), though it can infect over 20 hardwood genera in . Infection often begins through wounds, leading to yellow-white decay with black zone lines and cankers, which can extend decay columns up to 3-5 meters in height, weakening trees and contributing to cull logs in forests. It plays a role in nutrient cycling by breaking down woody debris but is considered a in managed woodlands, occasionally associating with diseases like esca in grapevines. Distributed across the , Phellinus igniarius is widespread in , (including all Canadian provinces and parts of the like and ), and , favoring temperate forests and urban parklands where suitable hosts grow. In , it is particularly common in on species like cottonwood and dogwood. While not globally threatened (rated as secure in ), its presence can impact timber quality, and historical uses include employing the dry fruiting bodies as due to their flammable properties. Recent research highlights potential medicinal applications from its , which exhibit and immunomodulatory effects, though further studies are needed.

Taxonomy

Etymology and nomenclature

The genus name Phellinus derives from the word phellos, meaning "cork," alluding to the tough, cork-like texture of the fruiting bodies in species of this . The specific epithet igniarius originates from the Latin ignis, meaning "," reflecting the historical use of the as due to its flammable dried interior. Common names for Phellinus igniarius include willow bracket, fire sponge, false tinder polypore, and , with the latter emphasizing its role in fire-starting traditions. These names often highlight its preferred association with willow trees or its combustibility. The species was first described by as Boletus igniarius in his 1753 work . It was later transferred to the genus by Lucien Quélet in 1886, establishing the current binomial Phellinus igniarius (L.) Quél. Under the International Code of Nomenclature for algae, fungi, and plants (ICN), Phellinus igniarius is the accepted name, with no significant recent controversies, though the broader Phellinus igniarius group has presented taxonomic challenges due to morphological similarities among related .

Synonyms and classification

Phellinus igniarius belongs to the kingdom Fungi, division , class , order Hymenochaetales, family Hymenochaetaceae, genus , and species P. igniarius (L.) Quél. This taxonomic placement reflects its position as a wood-decaying basidiomycete within the Hymenochaetaceae, a family characterized by poroid hymenochaetoid fungi. The species has several synonyms, including Fomes igniarius (L.) Cooke and Phellinus trivialis (Bres.) Kreisel. These synonyms arise from historical classifications that placed the fungus in genera like Fomes before its reassignment to based on morphological and molecular evidence. Phylogenetically, P. igniarius is part of the well-supported sensu stricto (s.s.) clade within the Hymenochaetaceae family. Molecular studies using (ITS) regions and other markers, such as translation elongation factor 1-alpha (tef1α), have confirmed its separation from related genera like Fomitiporia, which were previously lumped in broader Phellinus sensu lato (s.l.) groupings. These analyses highlight the monophyly of Phellinus s.s. and its distinct evolutionary lineage among hymenochaetoid fungi. Recent taxonomic revisions have established P. igniarius as a comprising at least 15 distinct species worldwide, with no major further splits documented since the widespread adoption of in the 2000s. The strict sense (P. igniarius s.s.) is now limited primarily to hosts in the genus Salix (willows), particularly in and , while morphologically similar taxa on other hardwoods represent separate species. This delimitation relies on multilocus phylogenies, including ITS sequencing, which reveal cryptic diversity and host-specific adaptations within the complex.

Description

Macroscopic features

Phellinus igniarius produces bracket-like fruiting bodies that are typically - or disc-shaped, measuring 5–40 cm in width and 2–20 cm in thickness at the base, with lateral attachment to the host substrate. These structures are woody and hard, emerging from the bark or of trees, and can develop over multiple years, adding new growth layers annually. The upper surface is crusty and zonate, featuring concentric ridges that mark annual growth increments, sometimes accumulating up to 80 layers in older specimens; coloration ranges from dark gray to black or brown, with a velvety brown margin on younger growth and a rough, cracked texture in mature examples. The pore surface is grayish-brown, with 4–6 circular to angular pores per millimeter; the internal is woody-hard and - to reddish-brown. The exhibits no significant or and is inedible due to its extreme toughness. Growth occurs solitarily or in overlapping clusters, with fruiting bodies persisting for 5–20 years.

Microscopic characteristics

The hyphal system of Phellinus igniarius is trimitic, comprising generative hyphae that are , thin-walled, clamp-bearing, and 2–3 µm in diameter; skeletal hyphae that are thick-walled, golden-brown, aseptate, and 4–6 µm in diameter; and binding hyphae that are thick-walled and branched. Basidia are clavate, measuring 15–25 × 4–6 µm, and each produces four sterigmata. Basidiospores are broadly ovoid to subglobose, 4–5.5 × 2.5–3.5 µm, , thick-walled, and non-amyloid. The fungus lacks true cystidia, but the pores are lined with metuloid cystidioles that are thick-walled and pointed. Diagnostic reveals no reaction when stained with Melzer's reagent.

Distribution and habitat

Geographic range

Phellinus igniarius sensu lato (including the ) is native to the Holarctic region, with a widespread distribution across the . Recent phylogenetic studies recognize a complex of about 15 cryptic species within the traditional P. igniarius, with the strict species primarily in and , while North American populations represent distinct taxa. In , it occurs from , including countries such as , , and , extending southward to the Mediterranean region, encompassing nations like , , , and . In , the fungus ranges from northern territories like and in to southern areas including , with records across multiple Canadian provinces (, , , , , Newfoundland, , , ) and U.S. states (, ). In , it is documented in (including Central, Eastern, , Northern, Southern, and regions), (, , provinces), , , , and . Reports indicate introductions or expansions beyond the native range, particularly in the , likely facilitated by of host materials. For instance, occurrences have been noted in , where specimens are preserved in the national fungarium, and in southern , such as and . Additional records exist in parts of (Eritrea, , , , ), Central America (), and ( in Queensland, ), though these may reflect sporadic introductions rather than established populations. The fungus thrives in temperate to boreal forest environments and shows a preference for moist, riparian zones where humidity supports its development on suitable substrates. It is commonly associated with broadleaf trees in these settings. Phellinus igniarius is abundant in northern latitudes, where it is a frequent component of ecosystems, but becomes less prevalent in warmer, subtropical climates due to unsuitable conditions. Its populations remain stable globally, with no conservation concerns identified, as reflected in its secure status (N5) in and no rank (GNR) overall.

Host preferences

Phellinus igniarius primarily colonizes hardwoods, with a strong preference for species in the genera Salix (willows), Betula (birches), Alnus (alders), (poplars), Fagus (beeches), and Acer (maples). The fungus exhibits high substrate specificity, favoring angiosperms over gymnosperms and only rarely infecting . It targets the heartwood, inducing white rot that weakens the structural integrity of the host. Infection typically occurs through wounds, including branch stubs, pruning cuts, frost cracks, or other injuries on trunks, branches, or roots, allowing basidiospores to germinate and colonize the wood. As a perennial species, P. igniarius persists on both living trees and dead wood, forming long-lasting brackets that enable repeated spore production over multiple seasons. Host preferences show regional variation: in , it is more commonly associated with Populus species such as quaking aspen () and eastern cottonwood (), while in , Salix species dominate as primary hosts, with and also frequent.

Ecology

Life cycle

Phellinus igniarius reproduces primarily through sexual means via basidiospores produced on the hymenial surface of its fruiting bodies, which are hoof- or bracket-shaped and emerge from wounds or stubs on host trees. These spores, measuring 5–6.5 × 4.5–6 μm with thick walls, are released mainly from late summer through autumn, coinciding with periods of high that facilitate dispersal by and , though dry conditions suppress release. Despite their small size enabling potential long-distance travel, spore viability is limited, with sensitivity to reducing the to about 22.6 hours under exposure and freezing at -25°C severely inhibiting . Upon landing on suitable substrates such as wounded bark or aged stubs—where host defenses are diminished—the basidiospores germinate under optimal conditions of , 20–24°C, and neutral to slightly acidic , forming monokaryotic hyphae that initially grow superficially before penetrating the wood. The resulting is dimitic, comprising clamp connection-absent generative hyphae (, thin-walled, 2–4 μm wide) and thick-walled skeletal hyphae (brown, up to 10 μm wide), which colonize the heartwood and establish a persistent . Homokaryotic and heterokaryotic mycelial phases occur, with the latter dominating through after compatible mating, enabling dikaryotic growth. The persists perennially within the host for years to decades, slowly expanding decay columns that can reach 3–5 m in length, while the fungus remains latent until environmental cues prompt initiation. Fruiting bodies develop at wound sites, adding a new fertile pore layer annually to the underside, which produces successive generations of spores; this layered growth reflects the fungus's long-term occupation of the substrate. via mycelial fragments or conidia is uncommon and plays a minor role compared to basidiospore-mediated spread. The complete life cycle from spore germination and infection to initial fruiting body formation spans a multi-year process, typically several years, after which the perennial phase sustains spore production indefinitely on the living or dead host.

Pathogenic effects

_Phellinus igniarius is a white-rot fungus that primarily affects the heartwood of hardwood trees, decomposing both lignin and cellulose through the action of extracellular ligninolytic enzymes such as laccase and manganese peroxidase. These enzymes enable the fungus to break down the structural components of wood, resulting in a fibrous, pale, and progressively softened texture that develops over several years. In advanced stages, the decay often features fine black zone lines within the yellow-white wood, distinguishing it from other rot types. The infection typically initiates through wounds, branch stumps, frost cracks, or other natural openings in the bark, allowing basidiospores or to enter and colonize the heartwood. From there, the spreads slowly, often at rates of centimeters per year, primarily remaining latent in the heartwood but occasionally invading the sapwood and causing further structural compromise. Visible symptoms include the formation of perennial, hoof-shaped fruiting bodies (brackets) on the trunk or branches, which emerge as hard, woody structures with a grey-black upper surface and a brown, porous underside; these brackets indicate significant internal decay. Affected trees exhibit overall weakening, increased susceptibility to wind breakage, and potential if the decay encircles the trunk, though the rarely kills the host outright. Economically, P. igniarius has a minor impact in most forestry contexts, as it is less aggressive than pathogens like species, but it reduces timber and pulp quality in affected hardwoods such as and . Notable damage occurs in urban settings and Northern European plantations, particularly on willows (Salix spp.), where decayed trees pose hazards in recreational areas and require removal. Additionally, the decay creates softened wood that attracts woodpeckers and facilitates secondary colonization by insects, indirectly supporting through habitat provision in deadwood.

Identification

Distinguishing features

Phellinus igniarius exhibits a distinctive hoof-shaped fruiting body, typically measuring 10-20 cm wide and up to 20 cm thick, with a dark, crusty exterior that often appears blackened and cracked, featuring prominent zoned growth rings indicative of its nature. This hard, persistent structure adheres firmly to the host tree, lacking any stem except in very young specimens, and maintains a woody consistency that endures for many years. The fertile underside bears small, circular pores, numbering 4-6 per millimeter, which are initially pale cream to brown and darken to rusty or hues with age, without any color change upon bruising or handling. In cross-section, the context reveals a firm, non-crumbling, reddish-brown to woody interior divided into distinct annual layers, contributing to its overall toughness. A bitter taste is characteristic when sampled, further aiding in identification. Fruiting primarily occurs in the fall, with spore release extending through summer and autumn, and the fungus shows no gelatinous or strictly annual variants, reinforcing its identification through seasonal and textural cues. Its hard texture allows differentiation from softer polypores via a simple firmness test. The spore print is white.

Similar species

Phellinus igniarius can be confused with several morphologically similar polypores in the Hymenochaetaceae family, particularly other species in the Phellinus igniarius complex, which are distinguished primarily by host specificity, pore density, and context coloration. Accurate identification often requires consideration of the associated tree species, as many of these fungi exhibit strict host preferences, supplemented by microscopic examination of hyphal structure and setae. Phellinus tremulae, commonly known as the aspen bracket, is one of the closest relatives and is nearly identical in overall form and texture to P. igniarius, but it is restricted to species such as aspen and poplar, whereas P. igniarius primarily occurs on Salix. The pore surface of P. tremulae is slightly darker tawny to purplish brown and features larger pores measuring 3–5 per mm, compared to the 4–6 per mm in P. igniarius; additionally, the context tissue in P. tremulae tends to be yellower. Microscopic analysis reveals subtle differences in marginal shape, confirming the distinction. Phellinus pomaceus, commonly known as the cushion bracket, produces smaller brackets, typically up to 8 cm across, with more pronounced orange hues in the young upper surface and margin, maturing to darker brown and cracked; it grows on hardwoods such as species. Its pores are angular and measure 3–4 per mm, with a pale tan to orange-tan coloration, and the is distinctly orange-brown, up to 2 cm thick. Host association with fruit trees like further aids differentiation. Fulvifomes robiniae, formerly classified as Phellinus robiniae, occurs exclusively on Robinia pseudoacacia (black locust) and can form resupinate patches or hoof-shaped brackets with a tomentose yellow-brown upper surface that cracks and darkens to black with age. Its pores are brown and 7-8 per mm, and while morphologically similar, phylogenetic analyses place it outside the core Phellinus clade, with differences in setal morphology visible under microscopy. The strict host limitation to locust trees provides a key field differentiator from the broader deciduous host range of P. igniarius. Species in the Fomitiporia, such as F. robusta, resemble P. igniarius in form but are generally thinner and , with tubes that separate more easily from the upon maturation. These fungi occur on broad-leaved trees like , and their spores exhibit stronger dextrinoid reactions in compared to the weakly dextrinoid or non-reactive spores of P. igniarius. Pore density is similar (4–6 per mm), but the overall , woody structure of P. igniarius contrasts with the more fragile, layered growth in Fomitiporia. Phellinus arctostaphyli is smaller in size, with brackets rarely exceeding 10 cm, and is confined to hosts in the Ericaceae such as (manzanita) and , primarily in western including northern regions. Its upper surface is smoother and less cracked than that of P. igniarius, with a context that is paler and less zonate; pores are comparable in density (4–5 per mm) but the overall compact form and host specificity distinguish it. Microscopic features, including hyphal arrangement, provide final confirmation. Overall, differentiation among these species relies heavily on host identification, followed by pore density (e.g., fewer and larger in P. tremulae and F. robiniae) and context hues, with essential for resolving ambiguous cases due to overlapping macroscopic traits.

Uses

Traditional applications

Phellinus igniarius has been utilized historically as a material due to the slow-burning properties of its dried interior, earning it the false . In , the was processed into a soft, velvety substance known as esca or , which caught sparks effectively from flint and steel kits and maintained a smolder without open , facilitating transport and starting since . This woody, corky texture allowed it to serve as reliable kindling in contexts across temperate regions. In , including among the Sami people, P. igniarius was employed for fire-making, with locals preparing it into for traditional ignition methods. The species was referenced in 18th-century botanical texts, such as those by , who named it igniarius in recognition of its fire-starting utility. North American indigenous groups adapted the fungus for practical crafting beyond fire use. In , the Inupiaq and peoples burned the basidiocarps to produce ashes, which were mixed with for or to enhance its effect, a practice documented for centuries and evidenced by ornate storage boxes from the late 1800s.

Medicinal properties

In traditional East Asian medicine, particularly in and Korea, Phellinus igniarius (known as "Sanghuang") has been used for centuries to treat conditions such as , and intestinal ailments, hemorrhages, and , often prepared as decoctions from the fruiting body. The mushroom contains bioactive compounds including , hispidin, and hispolon, which contribute to its and properties. exhibit strong free radical scavenging activity, while hispidin and hispolon demonstrate inhibitory effects on and inflammatory pathways in cellular models. A 2014 study in a model of experimental autoimmune , an analogue for , showed that an extract termed Piwep from P. igniarius reduced disease severity by inhibiting immune cell infiltration into the , suggesting potential symptom relief through . In 2022 research using hyperuricemic and gouty rats, both wild and cultivated P. igniarius extracts lowered serum levels by inhibiting activity and downregulating urate transporter expression, alleviating gouty . A 2016 review highlighted the antitumor activity of P. igniarius extracts , demonstrating inhibition of gastric cancer cell lines via mitochondria-dependent pathways. Additional pharmacological effects include immunomodulatory actions, such as restoring +/+ T cell ratios and balance in immune-deficient models, hepatoprotective benefits by activating farnesoid X receptor signaling to mitigate , and potential anti-diabetic properties through modulation of and improved glucose tolerance in mouse models during the 2020s. A 2024 study demonstrated hypoglycemic effects of P. igniarius through serum metabolome analysis in models. Additionally, a 2025 pharmacokinetic study profiled twelve compounds from P. igniarius extracts, confirming their absorption and distribution. Studies report low toxicity for P. igniarius extracts, with doses up to 3 mg/g showing minimal adverse effects in models, though clinical trials remain limited, highlighting gaps in translating preclinical findings to therapeutic applications.

References

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