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Asplenium trichomanes

Asplenium trichomanes, commonly known as maidenhair spleenwort, is a small, evergreen belonging to the Aspleniaceae . It features delicate, linear-pinnate fronds that arise in rosettes from a short, thick covered in dark, shiny scales, with fronds typically measuring 5–25 cm in length and 0.5–1 cm in width, composed of 15–40 pairs of opposite, oblong to oval pinnae that are 4–10 mm long. The glossy, dark purplish-brown to black stipes (stems) contrast with the deep green, leathery fronds, and reproduction occurs via spores produced in linear-oblong sori on the undersides of the pinnae, maturing from July to September. This exhibits a broad, circumboreal distribution, occurring across (including 42 U.S. states from to and to ), , , parts of , and extending to (notably rare populations in , , and ) and . such as A. t. subsp. trichomanes (diploid, preferring acidic rocks) and A. t. subsp. quadrivalens (tetraploid, on substrates), along with hexaploid cytotypes in some regions, contribute to its adaptability, with spores ranging from 27–43 µm depending on the variant. Asplenium trichomanes thrives in shaded, rocky habitats such as cliff crevices, talus slopes, forested bluffs, and outcrops of acidic rocks (e.g., , , ) or calcareous substrates (e.g., , ), often in moist, well-drained at elevations from to over 680 m. Ecologically, it is associated with other rock-dwelling s in dry forests or cool, moist environments, benefiting from protection in through rootstock division. Globally secure (G5 rank), the species faces localized threats including quarrying, habitat disturbance from timber harvesting, invasive pines, and inappropriate fire regimes, leading to vulnerable or threatened status in regions like (population ~230 plants across three sites as of 2009) and (state threatened since 1984).

Description

Morphology

Asplenium trichomanes is a small, that forms tufted rosettes arising from a short, erect or ascending , typically 1-2 mm in , which is covered in lanceolate scales measuring 1.5-2 mm long. The plant exhibits a compact, herbaceous growth habit, with fronds emerging in dense clusters that slowly spread to form small colonies up to 1 foot in area. The fronds are monomorphic, linear to lanceolate in outline, and measure 10-22 cm in length by 0.6-1.5 cm in width, with a blade-to-stipe of approximately 3:1 to 5:1. They are once-pinnate, bearing 15-35 pairs of opposite to subopposite pinnae that are oblong to ovate or obovate, 3-10 mm long and 2.5-4 mm wide, with rounded or truncate bases, finely dentate margins, and free veins. The stipe and rachis are dark brown to black, glossy, and lustrous, ranging 5-7 cm long, with a narrow wing along the rachis and dense clusters of filiform brown scales at the base; the rachis continues the dark coloration throughout. On the abaxial surface of the pinnae, sori are arranged linearly along veins positioned midway between the midrib and margin, with 2-5 sori per pinna, each oblong to linear and approximately 1.5 mm long, protected by a translucent, pale tan false indusium that becomes obscured by mature sporangia. The diploid cytotype, representing the baseline , has a number of 2n=72. Variations in size and pinna coloration occur across , such as slightly larger fronds in the tetraploid ssp. quadrivalens.

Reproduction

Asplenium trichomanes exhibits a typical life cycle characterized by between a dominant diploid phase and a short-lived haploid phase. The , which is the familiar leafy fern plant, produces asexual spores through in sporangia clustered in sori on the underside of fertile fronds. These spores germinate to form free-living gametophytes, which are bisexual and produce both male gametes () in antheridia and female gametes (eggs) in archegonia. Fertilization requires water for the motile to swim to the egg, leading to the development of a new that grows into the mature plant. In addition to sexual reproduction, A. trichomanes can propagate asexually via its short, creeping rhizomes, which branch and form clonal clumps of genetically identical individuals. This vegetative spread allows the to colonize suitable microhabitats, such as rock crevices, without relying on dispersal. begins with production in sori, typically arranged in 2–4 pairs per pinna on both sides of the midrib, each containing 64 spores per . The spores are monolete and germinate into heart-shaped prothallia, which are small s measuring 3–5 mm wide, featuring a ed apex and producing antheridia on the underside and archegonia near the notch. These prothallia are bisexual, enabling self-fertilization within the same or cross-fertilization between individuals in moist conditions. Apogamy, the development of a sporophyte directly from gametophyte cells without fertilization, has been reported in some diploid plants of A. trichomanes. Cytotypes play a key role in reproductive success: the diploid cytotype (2n=72) produces viable, reduced spores (27–32 µm) through regular meiosis, while the tetraploid cytotype (2n=144) produces larger reduced spores (37–43 µm) through meiosis. Hybrids between cytotypes, often triploid, show reduced spore viability due to meiotic irregularities, limiting sexual reproduction in those populations.

Taxonomy and classification

Taxonomic history

Asplenium trichomanes was first described by in his seminal work in 1753, where it was established as the for the genus within the family Aspleniaceae. The specific "trichomanes" originates from , combining "trichos" (hair) and "manes" (sparse or flowing), alluding to the woolly, hair-like scales covering the stipe. Early taxonomic treatments often confused A. trichomanes with morphologically similar species, such as Asplenium viride, which was historically subsumed under the Linnaean varietal name Asplenium trichomanes-ramosum due to overlapping features like frond dissection and habitat preferences on rocky substrates. Over time, several names have been recognized as synonyms, including the homotypic Athyrium trichomanes (L.) Roth from 1799, which transferred the species to a different genus, and Asplenium saxatile Salisb. from 1796, a superfluous name based on the same type. Significant revisions in the 19th and 20th centuries stemmed from cytological investigations that uncovered within the A. trichomanes complex, demonstrating diploid (2n=72) and tetraploid (2n=144) cytotypes and highlighting hybridization as a driver of variation; pioneering work includes Irene Manton's 1950 analysis of cytology and J.D. Lovis's 1958 biosystematic study, which delineated evolutionary patterns through chromosome counts and spore sizes. In the , has solidified the taxonomic framework, placing A. trichomanes firmly within the monophyletic sensu stricto of Aspleniaceae, as evidenced by DNA analyses that resolve its relationships among over 400 congeners and confirm the integrity of the core group against segregate genera.

Subspecies and cytotypes

trichomanes exhibits significant cytotypic variation, with three primary levels documented across its range: diploid (2n=72), associated primarily with subsp. trichomanes; tetraploid (2n=144), linked to subsp. quadrivalens and several other subspecies; and hexaploid (2n=216), reported from high-elevation sites in . These cytotypes influence reproductive compatibility, as differences in often lead to sterile triploid hybrids (2n=108) when diploids and tetraploids co-occur, facilitating hybrid formation but limiting between cytotypes. Some authorities debate elevating distinct cytotypes to full species status due to . The species encompasses several recognized worldwide, though classifications vary by region and authority; key examples include the widespread subsp. trichomanes (diploid, favoring acidic substrates with narrower up to 1 cm wide and smaller scales), subsp. pachyrachis (tetraploid, Eurasian on with thicker rachises and broader exceeding 1.5 cm wide), and subsp. hastatum (tetraploid, with biauriculate pinnae). Distinguishing traits among often involve width, pinna shape (e.g., biauriculate in subsp. hastatum), size (smaller in diploids at 25–29 μm versus 30–38 μm in tetraploids), and scale characteristics, such as annulus stretching or papillae prominence. Hybrids are common within the A. trichomanes complex and with related species, forming nothospecies such as A. × clermontae (A. trichomanes × A. ruta-muraria), a rare triploid with intermediate morphology observed in temperate rocky habitats, and intra-complex tetraploid hybrids like A. × lusaticum (subsp. trichomanes × subsp. quadrivalens). Recent molecular studies, including a 2019 global phylogeny, support cytotype-based delimitation of by revealing distinct plastid haplotypes correlated with levels and geographic isolation, while ongoing confirms in hybrid zones. As of 2025, (POWO) accepts A. trichomanes as the name, listing several (e.g., subsp. trichomanes, subsp. quadrivalens, subsp. hastatum) under alternative taxonomies while noting synonymy debates in regional floras.

Distribution and habitat

Geographic range

Asplenium trichomanes is native to temperate and subarctic regions across the , encompassing much of , , and , with an interrupted circumboreal distribution. In , it ranges from and southward through and the , reaching high elevations in the . The species is widespread in the , occurring up to approximately 870 m in elevation, and is circumpolar in regions. The distribution extends southward into subtropical and tropical montane areas, including mountainous regions of (such as , , and ), , , southeastern including , and . In , it is found from southeastern through , , , and southwestern . Populations in are also native. Several subspecies exhibit distinct distributional patterns. Asplenium trichomanes subsp. trichomanes (diploid) is widespread in and , occurring on non rocks, while subsp. quadrivalens (tetraploid) has a more northern distribution in and , preferring substrates. Subsp. hastatum is restricted to the high Alps in , including , , , , and . Introduced or adventive populations are rare, primarily as escapes in southern continents outside native montane ranges, though many southern occurrences are considered native. As of 2025 assessments by organizations like NatureServe, no major range shifts have been documented, but ongoing monitoring tracks potential on elevational limits.

Habitat preferences

Asplenium trichomanes primarily inhabits rocky environments, favoring crevices in cliffs, walls, , and talus slopes where its rhizomes can anchor securely. It shows versatility in substrate preferences across its , with some forms, such as A. t. subsp. quadrivalens, thriving on both rocks like and siliceous substrates including and , while A. t. subsp. trichomanes is more restricted to acidic, siliceous or rocks. Populations are often found on man-made structures such as mortar walls and quarries, particularly in , though it avoids waterlogged or highly acidic soils. The species is shade-tolerant, preferring dappled light or partial to full shade in humid, sheltered microhabitats to prevent , though it can tolerate greater exposure at higher elevations. It requires consistently moist conditions, especially during , with optimal growth in mesic soils of high and good drainage, but mature exhibit in well-drained rocky settings. Excessive or drying can lead to competition from faster-growing or summer . A. trichomanes occurs across a broad elevational range from to over 2,500 m, adapting to cool temperate, , and montane climates with low to moderate rainfall. It favors oligotrophic, slightly acidic to neutral substrates in these zones, performing best in humid environments but persisting in drier forests at mid-elevations. These habitats span temperate regions globally, from coastal cliffs to screes. In suitable sites, it co-occurs with other calcicole ferns such as Asplenium ruta-muraria in rocky communities, forming part of chasmophytic vegetation on base-rich outcrops. Its scaly, creeping rhizomes provide stability on vertical or unstable surfaces, enabling persistence in erosion-prone crevices and contributing to its longevity, with individuals surviving over 25 years.

Ecology and conservation

Ecological interactions

Asplenium trichomanes reproduces via spores that are primarily dispersed by , with the majority (over 95%) landing within 2 meters of the parent , facilitating local colonization in suitable microhabitats. This short-distance dispersal pattern limits long-range migration but supports establishment in fragmented rocky environments. The stage, which is prothallial and heart-shaped, exhibits a high degree of tolerance, allowing it to survive periods of in exposed habitats, though it remains sensitive to extreme sunlight and requires moist conditions for fertilization and development. The species experiences occasional herbivory from , such as slugs and snails, which can damage fronds in moist conditions, though such grazing is typically limited due to the fern's tough, leathery texture and rocky refugia. Pathogen interactions include susceptibility to rust fungi (Uredinales), particularly in damp environments, where uredinial stages produce masses on fronds, potentially reducing photosynthetic capacity; species in the genus Milesina are known to infect related taxa, contributing to fern-specific disease dynamics. Mycorrhizal associations in A. trichomanes are rare or absent, particularly in rupicolous populations, as the species often occupies nutrient-poor rock crevices where endomycorrhizal colonization is low or undetectable; instead, it relies on direct nutrient uptake from weathered substrates and organic debris accumulation. This lack of symbiosis highlights its adaptation to oligotrophic conditions through efficient resource acquisition mechanisms. In ecosystems, A. trichomanes functions as a pioneer species on exposed rock faces and cliff crevices, where its rhizomatous growth traps wind-blown debris and contributes to initial soil formation by promoting mineral weathering and organic matter retention, facilitating succession to more complex plant communities. It serves as an indicator of base-rich or acidic rocky habitats depending on the subspecies, with subsp. trichomanes favoring noncalcareous substrates and subsp. quadrivalens preferring calcareous ones, and its presence often signals stable, undisturbed environments with low disturbance levels. Adaptations to climate variability include the fronds' resilience to and cold, enabling persistence in temperate to zones, while polyploid cytotypes (diploid to tetraploid) enhance and environmental adaptability, allowing colonization across varied elevations and latitudes.

Asplenium trichomanes is assessed as Least Concern in by the IUCN as of 2003, originating from the European Red List of Lycopods and Ferns, with no global assessment as of 2025. However, it faces local threats and is listed as Threatened in due to habitat loss and small population sizes confined to specific microhabitats. NatureServe ranks it as G5, indicating it is globally secure with thousands of occurrences across a broad range. The species is threatened by habitat destruction, including quarrying, road building, and timber harvest, which disrupt its preferred rocky crevices. Urbanization and development further fragment populations, while invasive species competition and recreational activities pose additional risks. Climate change exacerbates vulnerabilities by altering rainfall and temperature regimes, potentially reducing moisture availability in shaded rock habitats. Population trends are generally stable in core and North ranges due to abundant suitable , but declines occur in fragmented or peripheral areas where occurrences are few and isolated. Cytotype-specific vulnerabilities exist, with diploid forms (such as subsp. trichomanes) being rarer and more restricted compared to widespread polyploid cytotypes like the tetraploid subsp. quadrivalens. Protections include monitoring through NatureServe rankings and inclusion in regional conservation frameworks, though it is not strictly listed under Annex II or IV of the EU ; some subspecies receive protection in specific European contexts. efforts focus on preservation, such as maintaining hydrologic conditions in cliff sites, and potential replanting in suitable urban rock walls to bolster local populations. Seed banking initiatives target polyploid forms to support .

Cultivation

Growing requirements

Asplenium trichomanes is in USDA zones 3 to 9, tolerating temperatures down to -40°C (-40°F), and remains in mild climates where winter lows stay above -15°C. For optimal growth, plant in well-drained, humus-rich soil with a of 5.5 to 7.5, incorporating rocky or gritty material to mimic its natural ; preferences vary by , with subsp. trichomanes favoring acidic conditions ( 5.5-6.5) and subsp. quadrivalens neutral to alkaline ( 6.5-7.5). It thrives in partial to full with high levels, avoiding direct sunlight that can scorch the delicate fronds. Maintain moderate , ensuring it never becomes waterlogged, as excess water can lead to ; water regularly during dry spells but allow the surface to dry slightly between applications. Mulching with chips helps retain moisture and regulate pH for calcareous-preferring such as A. t. subsp. quadrivalens, while suits acidic-preferring variants. The plant experiences minimal pest and disease issues in suitable conditions, though slugs may occasionally damage young fronds, and fungal rots can occur in overly wet environments—prevent these by ensuring good drainage and air circulation. Asplenium trichomanes has received the Royal Horticultural Society's , recognizing its reliability and ornamental value in cultivation as of 2025.

Propagation methods

Asplenium trichomanes is primarily propagated in cultivation through spores or rhizome division, both of which support its reproduction as a species. propagation begins with collecting mature spores from the sori on fertile fronds from mid-summer to early fall, when the sporangia appear darkened and frayed. To ensure sterility, the fronds are briefly immersed in a 5-10% solution before gently tapping or shaking them over to release the fine spores. The spores are then sown on the surface of a sterile, humus-rich medium, such as a mix of moss and lime or and , without burying them, in small containers like 5 cm pots. High is maintained by sealing the containers or covering with , at temperatures of 15-24°C (59-75°F) in indirect light or under fluorescent lighting for 8-16 hours daily. typically occurs within 1-3 months, producing prothalli (gametophytes), which develop into sporophytes over 6-12 months; young plants are then transplanted to larger pots in light shade once they reach 15 cm. Rhizome division is a straightforward vegetative method suitable for established clumps, performed in spring by carefully separating the rhizomes at natural constrictions, ensuring each division includes and at least one . The sections are replanted immediately in pots with a well-draining, humusy medium and kept humid until rooted, yielding high success rates for mature . Propagation efforts may face challenges due to the species' polyploid cytotypes, including diploids and tetraploids; tailored conditions such as (acidic 5.5-6.5 for subsp. trichomanes, neutral-alkaline 7.0-8.0 for subsp. quadrivalens) or help match preferences. Additionally, apogamous forms, such as the tetraploid quadrivalens, reproduce asexually via unfertilized spores, enabling single-spore colonization but potentially complicating sexual attempts. To address humidity needs during the stage, terrariums or covered setups are recommended. Overall timing favors spring for both methods, though autumn works for division in milder climates. Commercially, Asplenium trichomanes is available from native plant nurseries, with relying on traditional techniques and no documented use of as of 2025.

References

  1. [1]
    [PDF] Asplenium trichomanes subsp. trichomanes
    Asplenium trichomanes subsp. trichomanes is a fern with clusters of 5 to 25 cm long fronds arising from a short, thick rhizome. The small pinnae.
  2. [2]
    Asplenium trichomanes (Maidenhair spleenwort) | Native Plants of ...
    May 4, 2022 · Soil Description: Moist humus among limestone rocks. Conditions Comments: Requires little special care, although it may benefit by protection ...
  3. [3]
    Asplenium trichomanes (Maidenhair Spleenwort)
    Oct 26, 2024 · Habitat: part shade, shade; cool, forested bluffs, cliffs, talus ... National distribution (click map to enlarge): National ...Missing: ecology | Show results with:ecology
  4. [4]
    Asplenium trichomanes - NatureServe Explorer
    Habitat Comments: Asplenium trichomanes occurs on acidic rocks such as sandstone, granite, and basalt, and on calcareous rocks such as dolomite and limestone ( ...
  5. [5]
    Asplenium trichomanes (maidenhair spleenwort) - Go Botany
    1a. Marginal cells of rachis wings ascending, often longer than wide, rounded at the apex; distance between petiolules on same side of rachis near apex of leaf ...Missing: morphology | Show results with:morphology
  6. [6]
    Asplenium trichomanes - Maidenhair spleenwort - Hardy Fern Library
    Frond: 20 cm high by 1.5 cm wide, evergreen, monomorphic or nearly so, but the sterile fronds are earlier and prostrate, blade/stipe ratio: 3:1 to 5:1.Missing: morphology | Show results with:morphology
  7. [7]
    Asplenium trichomanes - Plant Finder - Missouri Botanical Garden
    Mature plants take on an upright to gently arching habit, with the fronds emerging from a shallow-rooted, stout rhizome. Will slowly spread from offsets and ...Missing: morphology | Show results with:morphology
  8. [8]
    Asplenium trichomanes subsp. trichomanes - Jepson Herbarium
    Chromosomes: 2n=72. Ecology: On rocks; Elevation: 200 m. Bioregional Distribution: nw KR (Del Norte Co.); Distribution Outside California: widespread in ...
  9. [9]
    Asplenium trichomanes - FNA - Flora of North America
    Nov 6, 2020 · In North America, as in Europe, Asplenium trichomanes consists of diploid and tetraploid cytotypes, treated here as subspecies. Asplenium ...Missing: life cycle prothallia apogamy
  10. [10]
    Asplenium trichomanes ssp. trichomanes gametophyte. A light and ...
    First an unbranched 5–6-celled germ forms which later becomes a spatula-, racket- and finally heart-shaped, bisexual prothallus with archegonia consisting of ...
  11. [11]
    [PDF] j. 1). lovis. - White Rose eTheses Online
    CYTOTYPES OF ASPLENIUM TRICHOMANES, WITH ANALYSIS OF MEIOSIS. (Figs 105 - 110). ASPLENIUM ADULTERINUM X DIPLOID CYTOTYPE. As is described in the Supplement ...
  12. [12]
    https://bsapubs.onlinelibrary.wiley.com/doi/abs/10.1002/ajb2.1611
  13. [13]
    Asplenium viride - NatureServe Explorer
    Taxonomic Comments: Generally called 'Asplenium viride' in most floristic literature, but the Linnaean name 'Asplenium trichomanes-ramosum' has priority.
  14. [14]
    Asplenium trichomanes L. | Plants of the World Online | Kew Science
    Synonyms. Has 3 Synonyms. KB. Homotypic Synonyms. Asplenium saxatile Salisb. in Prodr. Stirp. Chap. Allerton: 403 (1796), nom. superfl. Athyrium trichomanes (L.) ...
  15. [15]
    [PDF] Problems of cytology and evolution in the Pteridophyta
    The perfecting of the compound microscope was the most significant technical development, bymeans of which, for the first time,.
  16. [16]
    A global plastid phylogeny of the fern genus Asplenium ...
    Jul 11, 2019 · Asplenium trichomanes itself is resolved as polyphyletic in our analysis and species circumscription within the A. trichomanes complex is ...
  17. [17]
    [PDF] A morphometric study and revision of the Asplenium trichomanes ...
    Diploid sample of Asplenium trichomanes, verified by chromosome counting (locality 21, sample 46-5, n = ca 36II – counted by V. Jarolímová), was used as an ...
  18. [18]
    [PDF] Asplenium trichomanes (Maidenhair S - Idaho Fish and Game
    Asplenium trichomanes (maidenhair spleenwort) has an interruptedly circumboreal distribution with southern extensions into the United States.<|control11|><|separator|>
  19. [19]
    Asplenium trichomanes in Flora of North America @ efloras.org
    Sori 2--4 pairs per pinna, on both basiscopic and acroscopic sides. Spores 64 per sporangium. 2 n = 72, 144. Subspecies 4 (2 in the flora): worldwide. In ...<|separator|>
  20. [20]
    Taxon Profile | Asplenium trichomanes - Flora of New Zealand
    Asplenium trichomanes L. ; Class. Polypodiopsida ; Subclass. Polypodiidae ; Order. Polypodiales Link ; Family. Aspleniaceae Newman ; Genus. Asplenium L.
  21. [21]
    Asplenium trichomanes subsp. hastatum (Christ) S.Jess.
    The native range of this subspecies is Alps. It is a lithophyte and grows primarily in the temperate biome. Taxonomy. Distribution; Synonyms; Classification ...
  22. [22]
    Plant of the Month for Dec 2021 | North American Rock Garden Society
    It is distributed across the holarctic, extending south in mountainous areas, into South America, Africa, Indonesia as well as Hawaii, SE Australia, Tasmania ...Missing: distribution | Show results with:distribution
  23. [23]
    Asplenium trichomanes ssp. trichomanes - NatureServe Explorer
    Asplenium trichomanes ssp. trichomanes. Synonyms: Asplenium melanocaulon, Asplenium trichomanes. NatureServe Unique Identifier: ELEMENT_GLOBAL.2.148025.
  24. [24]
    (PDF) On the ecology and demography of a terrestrial population of ...
    Jun 4, 2022 · trichomanes and A. rutamuraria prefer rural environments in the USA, despite being common in urban environments in Europe (Bremer, 2004; ...
  25. [25]
    Asplenium trichomanes - Plant Toolbox - NC State University
    It is a short, dainty, fragile-looking, native fern with creeping or ascending rhizomes. It grows about 7 inches high and wide.Missing: nyctinastic motion
  26. [26]
    Asplenium trichomanes • FloraVeg.EU
    ### Habitat and Ecological Niche of Asplenium trichomanes
  27. [27]
    Asplenium trichomanes Maidenhair Spleenwort, Dense ... - PFAF.org
    The plant is not self-fertile. Suitable for: light (sandy) and medium (loamy) soils and prefers well-drained soil. Suitable pH: mildly acid, neutral and basic ...Missing: elevation | Show results with:elevation
  28. [28]
    Soil preference of populations of genotypes of Asplenium ...
    Analyses of the soils for pH, CaCO3, Al and H show that subspecies and hybrids have distinct soil preferences and can be characterised as calcicoles-neutro- ...
  29. [29]
    Maidenhair Spleenwort | Rare Species Guide - Minnesota DNR
    Asplenium trichomanes ssp. trichomanes is a perennial plant with evergreen leaves. Scaly rhizomes help anchor the plant in rocky habitats, but rhizomes do not ...Missing: morphology | Show results with:morphology<|control11|><|separator|>
  30. [30]
    Spore Production and Dispersal in Two Temperate Fern Species ...
    Nov 6, 2017 · We corroborate findings that the vast majority of spores produced are dispersed within 2 m of the parent plant. Additionally, spore production ...
  31. [31]
    The physiological resilience of fern sporophytes and gametophytes
    Aug 5, 2013 · Fern gametophytes show a high degree of desiccation tolerance but new evidence shows that morphological attributes in the gametophytes may ...
  32. [32]
    [PDF] The Complete Guide to Native Plants for Georgia: Ferns
    Asplenium trichomanes. / Asplenium resiliens. Azolla caroliniana. N.L. ... Comments: This fern has an interesting an unusual asexual reproduction method.
  33. [33]
    Vesicular-Arbuscular Mycorrhizae of Southern Ontario Ferns ... - jstor
    crevices of cliffs (Asplenium trichomanes, Camptosaurus rhizophyllus, Cystop- teris fragilis var. fragilis, Cryptogramma stelleri) were non-mycorrhizal.
  34. [34]
    Abstract - The University of Chicago Press: Journals
    Asplenium trichomanes subsp. quadrivalens is one of the most common and most widespread ferns in Europe. In this study we have combined genetic investigations, ...
  35. [35]
    [PDF] European Red List of Lycopods and Ferns - IUCN Portals
    Feb 26, 2003 · Asplenium trichomanes. LC. LC. No. No. Asplenium viride. LC. LC. No. No ... The Red List assessment below of Asplenium jahandiezii provides an ...
  36. [36]
    [PDF] Common Spleenwort_AS_504215.docx
    Common Spleenwort (Asplenium trichomanes subsp. trichomanes). Taxon ID: 504215 ... More information on IUCN listing criteria can be found here: IUCN Red List ...<|control11|><|separator|>
  37. [37]
    Asplenium trichomanes|maidenhair spleenwort/RHS Gardening
    Cultivation. Grow in humus-rich, moist but well-drained soil, with added grit, in partial shade. See how to grow ferns for further advice ; Propagation.
  38. [38]
    Asplenium trichomanes - Nursery Management
    Jan 3, 2018 · Grows to 9 inches tall and wide. Hardiness: USDA Hardiness Zones 3-9; evergreen in Zones 4-8. Landscape use: Use in rock gardens, as a border ...
  39. [39]
    Asplenium trichomanes (Maidenhair Spleenwort) - Gardenia.net
    Maidenhair Spleenwort is a miniature, evergreen fern with long, slender fronds, growing up to 6 inches tall and 6-12 inches wide, and is low maintenance.Missing: Sinyukhin motion
  40. [40]
    Fern Diseases - Penn State Extension
    Jul 7, 2025 · Bacterial Blight (Asplenium, Bird's Nest Fern), Translucent spots develop all over the leaves, enlarge quickly, and turn reddish-brown with ...Missing: trichomanes slugs
  41. [41]
    [PDF] Plant Propagation Protocol for Asplenium trichomanes L. ESRM 412
    May 15, 2018 · Time to Grow. The spores are ready to germinate in the Spring, and it takes 1-3 months for spores to germinate (Plants for a Future, 2015).Missing: prothallia apogamy cytotypes<|separator|>
  42. [42]
    How to Grow Ferns from Spores - Brooklyn Botanic Garden
    Jun 15, 2016 · The simplest way to propagate vegetatively is to divide branching rhizomes into separate plants. In ferns with creeping rhizomes, such as hay- ...Missing: trichomanes | Show results with:trichomanes
  43. [43]
    https://extension.psu.edu/fern-diseases/
  44. [44]
    Investigations into the Genetic Variation, Population Structure, and ...
    Asplenium trichomanes subsp. quadrivalens is one of the most common and most widespread ferns in Europe. In this study we have combined genetic investigations, ...Missing: trends | Show results with:trends