Coprinus
Coprinus is a genus of basidiomycete fungi belonging to the family Agaricaceae, comprising a small number of species characterized by their distinctive "inky cap" fruiting bodies, in which the gills undergo autodeliquescence—self-digestion into a black, inky liquid—as the spores mature to facilitate dispersal.[1] These mushrooms typically feature dark brown to black spores, centrally attached gills, and caps that expand from cylindrical or bell-shaped to flat or irregular forms, often with scales or fibers.[2] The type species, Coprinus comatus, known as the shaggy ink cap or shaggy mane, exemplifies the genus with its tall, shaggy-scaled cap and is widely recognized for its edibility when young.[3] Historically encompassing hundreds of species based on morphological traits like deliquescing gills, the genus Coprinus was found to be polyphyletic through molecular phylogenetic studies, leading to a major taxonomic revision in 2001. In the current circumscription (sensu stricto), Coprinus is limited to a few closely related species, including C. comatus, C. sterquilinus, and C. spadiceisporus, all placed within Agaricaceae and distinguished by features such as a cottony strand in the hollow stipe and inaequihymeniferous hymenia.[4] Over 90% of former Coprinus species have been transferred to other genera, primarily Coprinopsis, Coprinellus, and Parasola, which are now classified in the family Psathyrellaceae.[5] This reorganization reflects evolutionary relationships inferred from nuclear ribosomal DNA sequences, resolving the artificial grouping of deliquescent species.[6] Species in Coprinus are saprotrophic decomposers, breaking down lignocellulosic materials in terrestrial habitats such as grasslands, disturbed soils, wood debris, and herbivore dung, contributing to nutrient cycling in ecosystems.[7] They often fruit gregariously or in troops, with fruiting bodies emerging rapidly after rain and maturing within days before deliquescing.[1] While C. comatus is prized for culinary use and lacks significant toxins, the broader coprinoid group includes species with coprine, an antialcoholic compound causing disulfiram-like reactions when consumed with alcohol, though this is absent in the restricted Coprinus.[8]Taxonomy
Etymology
The genus name Coprinus derives from the Ancient Greek koprinos (κόπρινος), meaning "full of dung" or "growing on dung," a reference to the coprophilous (dung-inhabiting) ecology typical of many species within the group.[9] This etymology underscores the fungi's frequent association with nutrient-rich, decaying organic matter like manure. The genus was formally established in 1797 by the Dutch mycologist Christiaan Hendrik Persoon in his work Tentamen Dispositionis Methodicae Fungorum, where he transferred several species previously classified under Agaricus into the new taxon based on shared characteristics such as spore pigmentation and habitat preferences. Over time, various junior synonyms emerged to describe subsets of Coprinus species, often highlighting specific morphological traits; for instance, Annularius (proposed by Henri François Roussel in 1806) stems from the Latin annularius ("pertaining to a ring"), alluding to the annular (ring-like) structures on the stipes of certain taxa.[4] Similarly, Onchopus (erected by Petter Adolf Karsten in 1879) combines the Greek ónchos ("hook" or "claw") and poús ("foot"), reflecting claw-like or hooked basal features observed in some species.[4] These synonyms, now obsolete, illustrate early attempts to refine classification based on visible traits before molecular phylogenetics reshaped the genus boundaries.History
The genus Coprinus was established by the Dutch mycologist Christiaan Hendrik Persoon in 1797, when he transferred Agaricus comatus (originally described by Otto Friedrich Müller in 1780) to the new genus as Coprinus comatus, designating it as the type species.[9] This foundational act separated coprinoid fungi from the broader Agaricus based on their distinctive autodigesting (deliquescent) lamellae and dark spore deposits. Throughout the 19th and early 20th centuries, Coprinus expanded rapidly as mycologists incorporated additional species exhibiting similar morphological features, such as inky spore dispersal and habitat preferences for dung or wood. By the mid-20th century, the genus sensu lato encompassed over 200 species, reflecting a classification system heavily reliant on macroscopic and microscopic traits like gill autolysis and spore pigmentation.[10] This broad inclusion grouped diverse coprinoid fungi under Coprinus, despite emerging doubts about their monophyly from anatomical studies. The taxonomic landscape shifted dramatically with a 2001 molecular phylogenetic analysis by Scott A. Redhead and colleagues, which utilized ribosomal DNA sequences (including LSU and ITS regions) to reveal the polyphyly of Coprinus sensu lato. Their findings showed that the type species C. comatus clustered within the Agaricaceae, while most other species aligned with the Psathyrellaceae, prompting a genus split that retained only a small core group (approximately four species) in Coprinus sensu stricto. The majority of former Coprinus species—over 90%—were subsequently transferred to newly recognized genera, including Coprinellus (with type Coprinus disseminatus), Coprinopsis (with type Coprinus atramentarius), and Parasola (with type Coprinus plicatilis). This revision, published in Taxon, marked a paradigm shift toward phylogeny-based taxonomy in coprinoid fungi.Classification
Coprinus is classified within the kingdom Fungi, division Basidiomycota, class Agaricomycetes, order Agaricales, family Agaricaceae, and genus Coprinus.[5][11] The type species of the genus is Coprinus comatus (O.F. Müll.) Pers.[12] Accepted synonyms for Coprinus include Annularius, Onchopus, Pselliophora, Ephemerocybe, Lentispora, Pseudocoprinus, and Coprinusella.[11] Phylogenetically, Coprinus forms a small, monophyletic clade within the Agaricaceae, separate from the Psathyrellaceae, to which most species previously assigned to Coprinus have been transferred based on molecular evidence.[13] Delimitation of Coprinus and its segregate genera has relied on molecular markers, including internal transcribed spacer (ITS) sequences and nuclear large subunit ribosomal DNA (nLSU-rDNA).Description
Morphology
The fruiting bodies of Coprinus species exhibit the characteristic autodeliquescent gills of the coprinoid fungi, but in the modern narrow circumscription, they are distinguished by specific macroscopic and microscopic features. The pileus (cap) is initially ovoid, cylindrical, or bell-shaped, expanding with maturity, and typically features a surface with floccose or fibrillose scales derived from a tenacious universal veil; these scales become uplifted and lacerate as the cap expands, eventually deliquescing into a black, ink-like liquid after spore maturity. The stipe (stem) is central, hollow, and white to whitish, with a fibrillose or silky surface; a distinctive feature is the presence of an extractable central cottony filament running through the hollow interior. A movable annulus may form from veil remnants in some species, such as the type species C. comatus. The lamellae (gills) are free from the stipe, crowded and narrow, initially white before turning blackish due to enzymatic autodigestion, which facilitates spore release and renders mature specimens inky and evanescent.[14][15] Microscopically, Coprinus aligns with Agaricaceae through traits that set it apart from related coprinoid genera. Basidiospores produce a dark reddish-brown to black spore print; they are smooth or minutely roughened, ellipsoid to slightly amygdaliform, with a central to eccentric germ pore and thick walls, lacking prominent ornamentation but often showing a hilar appendix. Basidia are club-shaped and typically 4-spored. Cheilocystidia are present on gill edges, varying from lageniform to utriform, while pleurocystidia are characteristically absent from the gill faces—a key diagnostic trait. The pileipellis is a cutis of radially arranged hyphae, and clamp connections are present at hyphal septa throughout the basidiocarp. Specific dimensions vary among species; for example, spores of C. comatus measure 9–13 × 7–9.5 μm, while those of C. sterquilinus are larger at 17–22 × 10–13 μm.[14][15][16] In comparison to other coprinoid fungi (e.g., genera Coprinopsis, Coprinellus, and Parasola in Psathyrellaceae), Coprinus sensu stricto is differentiated by its robust, tenacious floccose veil scales on the pileus, the absence of pleurocystidia, and the extractable central cottony strand in the stipe. Deliquescence occurs in all coprinoids but is structurally supported in Coprinus without reliance on cystidial bracing. These traits, supported by molecular and anatomical studies, define the small clade centered on C. comatus.[16][1]Reproduction
Coprinus species, as basidiomycetes, follow a typical dikaryotic life cycle alternating between haploid monokaryotic and diploid phases, with sexual reproduction predominant through basidiocarp formation. Haploid basidiospores germinate to produce monokaryotic mycelium with hyphae containing a single nucleus per compartment. Compatible monokaryons fuse via plasmogamy, establishing the dikaryotic phase with two unfused nuclei per compartment, maintained by clamp connections. This dikaryotic mycelium colonizes substrates until environmental cues initiate fruiting from hyphal aggregates. Sexual reproduction occurs in the maturing basidiocarp, with karyogamy in terminal basidia forming a diploid nucleus that undergoes meiosis. Each basidium produces four haploid basidiospores via two meiotic divisions and mitosis, borne on sterigmata. Meiosis is synchronized across basidia, typically completing in hours, and influenced by environmental factors like light. The basidiospores are dark brown to black and contribute to cap blackening. Spore dispersal is aided by autodeliquescence, an enzymatic digestion of gill tissue (via chitinases, proteases, and glucanases) starting after spore maturity. This liquefies the gills from the margin inward, forming inky fluid that exposes spores for release over days. Initial dispersal involves ballistic ejection (e.g., Buller's drop), followed by wind. Cap expansion and stipe elongation aid elevation for dispersal.[1] Asexual reproduction is uncommon in Coprinus and may involve sclerotia as resting structures in some basidiomycetes, germinating into mycelium upon rehydration. Other propagules like oidia or chlamydospores occur rarely under laboratory conditions but are not significant in nature.Ecology
Habitat
Coprinus species are primarily saprotrophic fungi, deriving nutrients by decomposing dead organic matter in terrestrial ecosystems. They play a key role in nutrient recycling through the breakdown of lignocellulosic materials, such as cellulose and lignin, found in plant debris and animal waste. This decomposer lifestyle enables them to thrive in nutrient-rich, decaying environments, contributing to soil fertility by releasing essential minerals back into the ecosystem.[17][18] Preferred substrates for Coprinus include herbivore dung, particularly horse manure, where species such as C. sterquilinus and C. spadiceisporus exhibit coprophilous habits, as well as decaying wood, grasslands, and disturbed soils. For instance, Coprinus comatus commonly associates with lawns, roadsides, and areas of recent soil disturbance, often fruiting in clusters on enriched, organic substrates. These habitats provide the readily available organic compounds necessary for mycelial growth and sporocarp development.[19][20] Fruiting requires high humidity levels, typically above 80%, to support spore dispersal and prevent desiccation of developing basidiocarps.[21] These fungi exhibit sensitivity to environmental pollutants, such as heavy metals like mercury and cadmium, which inhibit growth and reduce fruiting success, positioning certain species as potential bioindicators of soil contamination. Habitat loss due to urbanization further threatens populations reliant on disturbed grasslands and roadside verges, as these areas are often converted or degraded.[22][8]Distribution
The genus Coprinus displays a cosmopolitan distribution, with species widespread across temperate regions of North America, Europe, and Asia, and introduced populations established in Australia through human activity.[23][24] Representative species such as C. comatus have expanded globally via anthropogenic dispersal, including transport on livestock dung and disturbed soils associated with agriculture and urbanization.[23][25] Biogeographic patterns reveal higher species diversity within Coprinus in the grasslands and meadows of the Northern Hemisphere, where temperate conditions favor saprobic lifestyles on organic-rich substrates.[26] In contrast, the genus exhibits limited diversity in tropical regions, with fewer species adapted to consistently warm, humid environments despite occasional records in disturbed tropical grasslands.[24][27] Factors influencing the spread of Coprinus species include human-mediated vectors such as international trade in hay, manure, and soil, which facilitate long-distance dispersal beyond natural ranges.[23][25] Overall, Coprinus species are generally not considered threatened at the global level due to their adaptability and abundance in suitable habitats.[23] However, local declines have been observed in some populations, attributed to habitat changes like grassland conversion to cropland, urbanization, and altered land management practices that reduce organic debris availability.[28][29]Diversity
Current Species
Following the extensive reclassification of the genus Coprinus based on molecular phylogenetic analyses, only a small number of species are currently accepted in Coprinus sensu stricto, all placed within the family Agaricaceae. These species are characterized by shared morphological traits such as a cottony central stipe strand, deliquescent lamellae that turn blackish from the margins inward, and dimorphic basidia, corroborated by ribosomal DNA sequence data that place them in a distinct clade separate from former Coprinus species now transferred to other genera. As of recent taxonomic assessments, four species are firmly retained, though ongoing molecular studies continue to refine boundaries and may adjust this count slightly.[30] Coprinus comatus (O.F. Müll.) Pers., known as the shaggy ink cap or shaggy mane, is the type species of the genus and the most widespread. It features a tall, cylindrical to fusiform fruitbody up to 30 cm high, with a shaggy, white to brownish cap covered in loose scales, and grows commonly on lawns, roadsides, and disturbed grassy areas worldwide. The species is edible and choice when young, before the gills begin to auto-digest and blacken, due to its mild flavor and firm texture. Its placement in Coprinus is supported by the absence of pleurocystidia and the presence of a thick, cottony stipe base, aligning with molecular markers from the internal transcribed spacer (ITS) region.[30] Coprinus sterquilinus (Fr.) Fr., the midden ink cap, is a smaller relative with fruitbodies rarely exceeding 10 cm tall, featuring a smooth to slightly fibrillose, brownish cap and a slender stipe. It is coprophilous, growing exclusively on dung of herbivores such as horse or rabbit in pastures, and is considered rare across Europe, with sporadic records in North America and Asia. Morphologically distinguished by its pinkish lamellae prior to deliquescence and lack of a prominent annulus, it shares the cottony stipe strand and dimorphic basidia with C. comatus, confirmed through phylogenetic analysis of 25S rDNA sequences.[30][15] Coprinus spadiceisporus Bogart is the least common, with fruitbodies similar in stature to C. comatus but distinguished by rusty-brown spores (rather than the blackish ones typical of the genus) and a less shaggy cap. Primarily reported from grassy areas and dung in western North America, it has also been documented in Asia, with a recent first record in Europe suggesting broader distribution. Its retention in Coprinus relies on molecular affinity to the C. comatus clade via ITS and 28S rDNA data, despite the atypical spore color, which underscores the role of stipe anatomy and basidial dimorphism in generic delimitation.[30] Coprinus calyptratus Peck, known as the star-capped coprinus, features a small to medium fruitbody up to 10 cm tall, with an egg-shaped to conical cap bearing a distinctive star-shaped patch from the universal veil, and a hollow stipe with a marginate bulbous base. It grows in sandy or disturbed soils, often in coastal dunes or arid areas, primarily in western North America but with records elsewhere. Its placement in Coprinus sensu stricto is supported by cottony stipe strands, deliquescent gills, and molecular data aligning it with the comatus clade.[31]Former Species
Following molecular phylogenetic analyses in the early 2000s, the genus Coprinus was determined to be polyphyletic, with most species clustering outside the clade containing the type species C. comatus, leading to major taxonomic revisions.[32] In 2001, Redhead et al. proposed segregating over 90% of Coprinus sensu lato into three new genera within the Psathyrellaceae: Coprinopsis for the atramentarius-latisporus clade, Coprinellus for the micaceus-disseminatus clade, and Parasola for the auricomus-nudiceps clade, based on nuclear ribosomal DNA sequences (nLSU-rDNA and ITS) that revealed distinct evolutionary lineages.[32] These transfers were driven by evidence that traditional morphological traits, such as deliquescence and spore pigmentation, did not align with phylogenetic relationships, necessitating a narrower circumscription of Coprinus sensu stricto to the Agaricaceae.[6] Specific reclassifications included section Micacei species to Coprinellus, reflecting their non-deliquescent basidiomata and shared cystidia morphology, while section Atramentarii species moved to Coprinopsis, supported by their deliquescent lamellae and molecular affinity to Psathyrella.[33] For instance, Coprinus atramentarius, known for producing coprine that inactivates alcohol dehydrogenase and causes adverse reactions when consumed with alcohol, was transferred to Coprinopsis atramentaria.[32] The section Auricomus, characterized by ephemeral, plicate pilei, was reassigned to Parasola, as in Coprinus plicatilis becoming Parasola plicatilis.[34] The following table lists 12 key examples of former Coprinus species, their new generic placements, and brief rationales based on phylogenetic and morphological evidence:| Original Name | New Name | Rationale |
|---|---|---|
| Coprinus atramentarius | Coprinopsis atramentaria | Molecular clustering in atramentarius clade; deliquescent with coprine production.[32] |
| Coprinus cinereus | Coprinopsis cinerea | ITS and nLSU data place it near Psathyrella; common soil saprotroph.[32] |
| Coprinus lagopus | Coprinopsis lagopus | Shares latisporus subclade traits like 4-spored basidia.[32] |
| Coprinus friesii | Coprinopsis friesii | Type species of Coprinopsis; dung-associated with molecular support.[32] |
| Coprinus micaceus | Coprinellus micaceus | Micaceus clade; non-deliquescent with mica-like veil remnants.[33] |
| Coprinus disseminatus | Coprinellus disseminatus | Disseminatus subclade; gregarious growth and persistent pileus.[32] |
| Coprinus bisporus | Coprinellus bisporus | 2-spored basidia diagnostic; phylogenetic affinity to micaceus group.[33] |
| Coprinus domesticus | Coprinellus domesticus | Wood-decaying; β-tubulin sequences confirm Coprinellus placement.[33] |
| Coprinus radians | Coprinellus radians | Radians section; granular veil and molecular clustering.[33] |
| Coprinus plicatilis | Parasola plicatilis | Auricomus clade; strongly plicate, membranous pileus.[34] |
| Coprinus auricomus | Parasola auricoma | Nudiceps subclade; golden scales and ephemeral basidiomata.[32] |
| Coprinus galericuliformis | Parasola galericuliformis | Plicate pileus; LSU rDNA supports Parasola lineage.[34] |