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Holcus lanatus
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Embryophytes
Clade: Tracheophytes
Clade: Spermatophytes
Clade: Angiosperms
Clade: Monocots
Clade: Commelinids
Order: Poales
Family: Poaceae
Subfamily: Pooideae
Genus: Holcus
Species:
H. lanatus
Binomial name
Holcus lanatus

Holcus lanatus is a perennial flowering plant in the grass family Poaceae. The specific epithet lanatus is Latin for 'woolly' which describes the plant's hairy texture. Common names include Yorkshire fog, tufted grass, and meadow soft grass. In North America, where it is an invasive species,[1] names include velvet grass and common velvet grass.[2][3]

In parts of northern Europe the grass is a common native species and a hardy pasture grass.[not verified in body]

Characteristics and hybrids

[edit]
Flower showing anthers

Holcus lanatus has velvety grey-green leaves. The stems are round. The bases of the stems are white with pink stripes or veins; this character has been called the "stripy pyjamas".[4] The inflorescence is robust and often tinged purple. It produces a large amount of seed and is a rapid coloniser of disturbed ground. It prefers wetter ground; it is often seen around drainage ditches. The ligule is 1–4 millimetres (0.039–0.157 in) long, blunt, and hairy.

This species can be distinguished from H. mollis by the beardless nodes on its culm, the absence of rhizomes, and the awn becoming hooked when dry and not projecting beyond the tips of the glumes.[2] It has been known to hybridize with H. mollis, producing a male sterile hybrid with 2n = 21 chromosomes.[2] Hybrids tend to resemble H. lanatus in their morphology.[3]

It spreads vegetatively by developing new shoots and roots at its nodes. Plants form a blanket of runners on the soil surface. Semi-prostrate rosettes of shoots called 'mops' may form at the end of the runners. These mops root readily in contact with moist soil.[3]

Invasive species and habitat preferences

[edit]

Ecology

[edit]

Holcus lanatus in its natural habitat is a food source for butterflies such as the speckled wood, the wall, and especially the small skipper. It is rarely utilized by the Essex skipper. In its native range it may occur in plant associations such as the Juncus subnodulosusCirsium palustre fen-meadow habitat.

See also

[edit]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Holcus lanatus

View on Grokipedia
from Grokipedia
Holcus lanatus, commonly known as common velvetgrass or Yorkshire fog, is a perennial tufted grass in the Poaceae family characterized by soft-hairy stems 30–100 cm tall, flat leaves 5–20 cm long and 4–12 mm wide, and dense purplish panicles up to 15 cm long.[1] It features fibrous roots primarily in the top 10 cm of soil and reproduces mainly by seed, producing up to 240,000 seeds per plant, with wind pollination and high self-sterility.[1] Native to Europe, western Asia, northwestern Africa, and the Canary Islands, it was introduced to North America by 1800 and has become widespread, particularly along coasts and in Hawaii.[1] The species thrives in a variety of habitats including pastures, meadows, grasslands, forests, and disturbed sites from sea level to 2,300 m elevation, preferring moist to wet conditions but tolerating moderate drought and a broad soil pH range of 3.5–8.0.[1] It forms dense clumps through tillering and can exhibit annual behavior in warmer climates, with grayish velvety pubescence covering culms, sheaths, and leaf blades that give it a distinctive soft appearance.[2] In its introduced range, H. lanatus is often considered a weed in turf, lawns, and natural areas due to its ability to spread via prolific seed production and form competitive stands.[3] Ecologically, Holcus lanatus can alter native plant communities by forming dense monocultures that inhibit seedling establishment through potential allelopathy and resource competition, particularly in grasslands and wetlands.[1] It serves as forage for wildlife such as elk and quail, though it has low palatability for livestock and is rarely used in managed pastures.[1] In regions like Hawaii, it is invasive, reducing biodiversity and altering fire regimes by slowing decomposition and increasing fuel loads.[1] Control typically involves mowing, grazing, or herbicides, as it responds to defoliation but persists in nitrogen-rich or disturbed soils.[1]

Taxonomy

Nomenclature and etymology

Holcus lanatus is the accepted binomial name for this perennial grass species, first validly published by Carl Linnaeus in the first edition of Species Plantarum in 1753.[4] The name places it within the genus Holcus of the Poaceae family.[5] The genus name Holcus originates from the ancient Greek term holkos, an old name for a type of soft grass or grain.[6] The specific epithet lanatus derives from the Latin word lanatus, meaning "woolly" or "covered with wool-like hairs," which refers to the soft, pubescent texture of the leaves and stems.[6] Common names for Holcus lanatus include common velvet grass (widely used in North America), Yorkshire fog (common in the United Kingdom), and velvet grass or soft grass.[1][7] The species has no major accepted synonyms, though historical synonyms such as Avena lanata (L.) Koeler and Nothoholcus lanatus (L.) Nash have been proposed.[8] The lectotype for Holcus lanatus is designated as Herb. Linn. No. 1212.10 (LINN), selected by T.A. Cope in 1993 from Linnaeus's original herbarium collections in Europe.[9]

Related species and hybrids

The genus Holcus comprises approximately 11 accepted species, primarily distributed in temperate regions of Eurasia and Africa.[10] Holcus lanatus, known as common velvetgrass or Yorkshire fog, is among the most widespread members of the genus, occurring across much of Europe, parts of Asia, and introduced elsewhere.[10] Key related species include Holcus mollis, commonly called creeping soft-grass, which differs from H. lanatus in its rhizomatous growth habit that allows vegetative spread, contrasting with the tufted, non-rhizomatous form of H. lanatus.[11] H. mollis also exhibits less pronounced hairiness on leaves and stems compared to the densely pubescent H. lanatus.[12] Another notable relative is Holcus setiger, an annual species with more rigid stems and shorter ligules, though it is less common in temperate zones.[10] Hybrids within the genus are documented, particularly Holcus × hybridus, resulting from crosses between H. lanatus and H. mollis, and occurring commonly in Europe where the parent species overlap.[13] This hybrid is often sterile due to chromosomal incompatibilities, exhibiting male sterility in many cases, and displays intermediate traits such as partial rhizomatous growth and moderate hairiness on stems and leaves.[14] Such hybrids tend to resemble H. mollis morphologically but can be identified by variable pubescence and ligule characteristics.[15] Phylogenetically, Holcus belongs to the tribe Aveneae within the subfamily Pooideae of Poaceae, as confirmed by molecular analyses of nuclear ribosomal ITS and plastid DNA sequences.[16] The genus shows close affinities to Avena (oats), with shared evolutionary lineages in Aveneae supported by phylogenetic reconstructions that place them in a clade characterized by similar inflorescence structures and genome types.[17] Identification of Holcus species relies on features such as ligule length and stem pubescence. For instance, H. lanatus has a short ligule (1–4 mm long, truncate and erose-ciliolate), while H. mollis possesses a longer ligule (up to 5 mm, obtuse and erose); hybrids often show intermediate lengths.[18][19] Stem pubescence varies, with H. lanatus featuring densely soft-hairy internodes and bearded nodes, H. mollis having sparser pubescence on internodes but densely villous nodes, aiding differentiation in the field.[20][21]

Description

Morphology

Holcus lanatus is a perennial, cespitose grass forming loose to compact tufts, typically reaching 20–100 cm in height, with a softly pubescent appearance throughout its vegetative parts that imparts a characteristic grayish-green hue.[22] The culms are erect or ascending from a prostrate base, hollow, and measure 20–100 cm tall, bearing 2–5 nodes that are often purplish due to anthocyanin pigmentation; the lower internodes are densely covered in soft, reflexed hairs up to 1 mm long, while upper portions may be glabrous.[1] The leaves are linear to narrowly lanceolate, 2–20 cm long and 3–10 mm wide, with both surfaces densely soft-hairy, contributing to the species' velvety texture; leaf sheaths are open, rounded on the back, slightly keeled, and pubescent with reflexed hairs, while the membranous ligules are 1–4 mm long, truncate, and erose-ciliolate on the abaxial surface.[22] The inflorescence is an open to moderately dense panicle, lanceolate to ovate in outline, 3–20 cm long and 1–8 cm wide, with pubescent branches bearing 2–6 spikelets each; the spikelets are 3–6 mm long, 2-flowered, and typically purplish or pinkish over the veins, with the lower floret perfect and fertile, and the upper staminate and awned; awns, when present, are 1–2 mm long, slightly twisted, and form a curved hook upon maturity, though some forms are awnless.[22] The root system is fibrous, non-rhizomatous, and tufted, with most roots concentrated in the top 10 cm of soil but capable of penetrating to 90 cm, lacking the elongated creeping rhizomes seen in close relatives like Holcus mollis.[1] A key distinguishing trait is the dense covering of soft trichomes on leaves, stems, and inflorescence parts, creating a velvety pubescence that contrasts with the smoother surfaces of related species.[22]

Reproduction and life cycle

Holcus lanatus is a perennial hemicryptophyte grass with a lifespan typically ranging from 3 to 5 years or longer, depending on environmental conditions such as moisture and temperature. It exhibits dormancy during winter, resuming vegetative growth rapidly in spring as temperatures rise, which supports tiller production and biomass accumulation. Flowering occurs primarily in mid-summer, with panicles emerging from June to August in its native European range, though timing can extend to May through September or October in introduced regions like North America. Anthesis is completed within 4 to 6 days, driven by favorable weather conditions.[1] Vegetative reproduction occurs primarily through tillering from basal shoots, allowing individual plants to form dense tufts or clumps that expand locally without significant clonal spread via rhizomes. Tillers develop roots at nodes and can survive independently after about 4 weeks, contributing to plant persistence in established patches. This mode of propagation is particularly effective in disturbed or shaded habitats, enabling the grass to maintain populations even under competitive pressure.[1] Sexual reproduction is wind-mediated and predominantly outcrossing, with rare instances of self-fertilization due to varying degrees of self-incompatibility among populations. Each panicle produces up to 100-380 seeds in the form of caryopses, with individual plants capable of generating up to 240,000 seeds under optimal conditions, though field densities range from 19,000 to 82,300 seeds per square meter. Seed viability is generally high, with germination rates around 80% under cool, moist conditions featuring alternating temperatures of 9-12°C and 20°C, and little innate dormancy. Seeds remain viable in the soil for up to 12 years, facilitating persistent seed banks that support recruitment following disturbances.[1][23][24]

Distribution

Native range

_Holcus lanatus is native to temperate regions of Europe, where it is widespread from the British Isles in the northwest to the Mediterranean basin in the south, including the Iberian Peninsula as a likely center of origin. It occurs across much of the continent, from Scandinavia southward to Portugal, Spain, France, Italy, and the Balkans, and eastward to the Caucasus region. In western Asia, the species extends into temperate areas such as Turkey and Lebanon.[25][26][27] The native range also encompasses northwestern Africa, spanning from Morocco through Algeria and Tunisia, potentially reaching Libya, as well as the Macaronesian islands including the Canary Islands and Madeira. Historical records indicate its long-standing presence in the British Isles, with pollen evidence from Late Quaternary deposits in Ireland suggesting occurrence in prehistoric associations of vegetation, such as Holcus lanatus-dominated communities with Iris pseudacorus. While specific mentions in medieval herbals are limited, the species' ubiquity in European grasslands implies early documentation in regional floras.[1][26][28] Biogeographically, Holcus lanatus thrives in temperate to sub-Mediterranean climates, tolerating a broad elevational gradient from sea level to 1500 meters, though it is most abundant in lowlands and mid-elevations up to 1200 meters in Europe. It is not endemic to any single region but exhibits core genetic diversity in Europe, reflecting its adaptation to diverse grassland and meadow ecosystems across its native distribution.[25][1][27]

Introduced range

Holcus lanatus, commonly known as common velvetgrass, was first introduced to North America in the 1700s, likely through accidental contamination of ship ballast or deliberate inclusion in forage seed mixtures from its native European range.[27] By 1755, it was documented in Pennsylvania, and by 1800, it had spread to multiple regions across the continent.[1] Today, it is widespread in the United States, particularly along the coastal areas of California, the Northeast, and the Pacific Northwest, as well as in Canada from British Columbia to Nova Scotia.[25] The species has also established in Australia, New Zealand, and parts of South America, including Chile and Argentina.[27] The spread of H. lanatus outside its native range occurred through both intentional and unintentional pathways. In the 19th century, it was deliberately introduced as a pasture grass in seed mixtures for meadows and forage.[1] Unintentional dispersal happened via contaminated hay, crop seeds, and soil movement by humans and animals, facilitating its establishment in disturbed habitats like roadsides and pastures.[25] Seeds, produced prolifically at up to 240,000 per plant, aid further dissemination by wind and water.[1] In its introduced regions, H. lanatus often forming dense stands in grasslands and wetlands. In California, it receives a moderate invasiveness rating from the California Invasive Plant Council due to its persistence in coastal prairies and forests.[29]

Habitat and ecology

Preferred conditions

Holcus lanatus thrives in a variety of soil types but prefers moist, nutrient-rich loams with a pH range of 3.5 to 8.0, where it is most abundant at pH 5.0 to 6.0. It tolerates acidic conditions well and can grow on poorly drained soils, though prolonged waterlogging reduces growth. While it adapts to moderate drought through surface rooting, it performs best in fresh to very moist environments and avoids severely dry or shallow soils prone to desiccation.[1] The species favors cool temperate climates with annual rainfall between 860 and 2,500 mm, and is notably frost-tolerant, extending its northern limits to areas with January isotherms around -2°C. It occurs in regions with average annual temperatures below 18°C in semiarid habitats and up to 23°C in mesothermal ones, tolerating July averages up to 27.5°C. In its native European range, these conditions align with moist, mild oceanic influences.[1] Holcus lanatus grows well in full sun to partial shade, with germination and establishment favored in exposed, open sites such as roadsides and meadows, though productivity declines under more than 33% shading. It reaches elevations from sea level to 2,300 m in native habitats but competes poorly in dry or highly alkaline soils beyond pH 8.0, limiting its dominance in arid or calcareous environments.[1]

Ecological interactions

Holcus lanatus is wind-pollinated, with anthesis occurring primarily in the morning and afternoon under favorable conditions, facilitating outcrossing in populations.[30] Seed dispersal occurs mainly via wind and water, but seeds are also consumed and spread by birds and mammals, contributing to its propagation in grassland ecosystems.[26][31] The species serves as a food source for various herbivores, including livestock such as cattle and large native ungulates like elk, which graze on its foliage and reduce its abundance and biomass in grazed areas.[24][32] Insect herbivores, including aphids, utilize H. lanatus as a host plant, with endophytic fungi potentially influencing herbivore preferences and performance on infected tissues.[33] Fungal pathogens, notably rust fungi such as Puccinia coronata, infect the leaves, impacting plant health and potentially regulating population dynamics in natural communities.[34][35] Holcus lanatus forms symbiotic associations with arbuscular mycorrhizal fungi, which enhance nutrient uptake, particularly phosphorus, and influence plant growth and competitive interactions in nutrient-limited soils.[36] In pasture systems, it often grows alongside nitrogen-fixing legumes, benefiting from improved soil nitrogen availability through these companions.[37] In native grasslands, H. lanatus contributes to community dynamics by stabilizing soil through its tufted growth habit, reducing erosion in temperate meadows.[1] Its litter alters decomposition rates, typically slowing the breakdown of organic matter due to high carbon-to-nitrogen ratios, which affects nutrient cycling and microbial activity in the soil.[38][39] Within balanced ecosystems, H. lanatus provides habitat and cover for soil invertebrates, supporting detritivore communities involved in litter processing, though it poses no major threats to native biodiversity in its indigenous range.[40][41]

Invasiveness and management

Status as invasive species

Holcus lanatus exhibits key invasive traits that facilitate its establishment and spread in non-native regions, including prolific seed production of up to 240,000 seeds per plant, which supports rapid colonization of disturbed sites such as roadsides and burned areas.[1] The species forms dense monocultures through vegetative tillering and seed reproduction (primarily outcrossing), suppressing native vegetation via direct competition for resources and allelopathic chemical inhibition of seed germination and growth.[29][42] These attributes enable it to dominate in temperate grasslands and woodlands, where it can cover over 30% of invaded coastal prairies in California.[42] The plant's impacts include significant reductions in biodiversity, as it outcompetes native bunchgrasses and perennials in grasslands and woodlands, leading to altered plant community composition and decreased native species recruitment.[42] In California, it threatens endemics in nutrient-poor habitats, such as Vine Hill Clarkia (Clarkia imbricata), by forming impenetrable stands that exclude other plants from these areas.[1][43][44] Additionally, its accumulation of thick litter layers—up to 1,537 g/m²—increases fuel loads, thereby altering fire regimes and heightening fire intensity and frequency in invaded ecosystems.[1][43] Regulatory recognition of its invasiveness varies by region; it is designated as a restricted noxious weed seed in several U.S. states (e.g., Delaware, Maryland, New Jersey, Virginia) to limit its spread via contaminated forage.[45] The California Invasive Plant Council assigns it a moderate rating overall, acknowledging severe local impacts in sensitive habitats like coastal prairies, though it lacks federal noxious status.[29] While not globally invasive, H. lanatus is problematic in temperate introductions across North America, New Zealand, and Hawaii, where it is tracked as an alien species disrupting native ecosystems.[27] Case studies highlight its targeted threats: in New Zealand, it invades wetlands such as dune ephemeral wetlands and fens, contributing to up to 40% alien cover and hindering native recovery post-disturbance.[46][47] In the United States, it poses risks in Hawaii by forming dense stands that inhibit native plant recruitment across elevations, and in California national parks like Yosemite, where it is prioritized for management due to ecosystem alterations.[1][48] Economically, H. lanatus diminishes pasture quality for grazing livestock by dominating swards with lower-nutritive-value biomass, thereby reducing forage productivity and necessitating alternative management practices.[27] This invasion also elevates costs associated with maintaining soil stability in grazed areas, as its spread on disturbed lands exacerbates erosion risks in pastoral systems.[1]

Control measures

Prevention of Holcus lanatus introduction focuses on using certified weed-free seeds and hay to avoid contamination in pastures and restoration sites, as the species spreads readily via seeds in agricultural materials.[1] Monitoring disturbed areas, such as roadsides and construction zones, is essential for early detection, allowing for rapid intervention before establishment.[3] Maintaining vigorous native or desired vegetation through proper fertilization and irrigation further suppresses invasion by reducing open niches.[49] Mechanical control methods include hand-pulling or hoeing small infestations, which effectively removes plants if the entire root system is extracted to prevent resprouting from basal shoots.[50] Mowing before seed set, at heights recommended for surrounding turf or pasture (typically 2-3 inches), reduces biomass and seed production, though clippings should be removed to avoid dispersal.[3] Tillage can disrupt established tufts but risks soil erosion on slopes and may spread seeds via equipment, so it is best suited for flat, non-sensitive areas.[1] Intense grazing by livestock, such as sheep, can decrease abundance by consuming foliage, though it requires repeated applications to limit regrowth.[1] Chemical control relies on post-emergence herbicides applied in spring or early summer when plants are actively growing. Glyphosate provides broad-spectrum control at rates of 2-4 quarts per acre, effectively killing above- and below-ground parts, but non-selective use necessitates spot treatments to spare desirable species.[51] Selective graminicides like fluazifop (1-1.5 pints per acre) or sethoxydim (1-2.5 pints per acre), combined with a crop oil surfactant, target grasses without harming broadleaf plants and are ideal for mixed habitats.[50][8] Applications should avoid wet periods to minimize off-site movement, and follow-up treatments may be needed for perennials.[50] Biological control options for H. lanatus are limited, with no approved agents currently available for widespread use.[50] Grazing by sheep or other herbivores can reduce biomass in rangelands, serving as a natural suppression method when integrated with other practices.[1] Research into fungal pathogens, such as rusts, shows potential but lacks field-tested efficacy for operational biocontrol.[1] Integrated approaches combine multiple methods for sustainable management, such as mowing or grazing followed by prescribed burning to decrease dominance and promote native species recovery.[1] Revegetation with competitive natives after initial control enhances long-term suppression, particularly in restoration projects.[49] These strategies align with integrated pest management principles, prioritizing prevention and monitoring to minimize herbicide reliance.[49] Ongoing monitoring is crucial for large-scale areas, with remote sensing techniques, including satellite imagery and habitat suitability modeling, used in California rangelands to detect and map infestations efficiently.[52] Ground-truthing via field surveys validates remote data, enabling targeted interventions in expansive grasslands.[53]

References

  1. Holcus lanatus - USDA Forest Service
  2. Holcus lanatus | UMass Amherst Landscape, Nursery & Urban ...
  3. Velvetgrass - NC State Extension Publications
  4. Holcus lanatus | International Plant Names Index
  5. Holcus lanatus L. | Plants of the World Online | Kew Science
  6. Holcus lanatus - Lucid key
  7. THE BIOLOGY OF CANADIAN WEEDS. 82. Holcus lanatus L.
  8. [PDF] common velvetgrass Holcus lanatus L.
  9. Holcus lanatus Linnaeus 1753 - Zenodo
  10. Holcus L. | Plants of the World Online | Kew Science
  11. [PDF] Holcus lanatus L. and H. mollis - Oregon State University
  12. Holcus lanatus - common velvetgrass
  13. Holcus × hybridus Wein | Plants of the World Online | Kew Science
  14. Holcus mollis L. subsp. hierrensis (Poaceae), a new subspecies of ...
  15. [PDF] Genetic diversity and population structure of Epichloe fungal ...
  16. Phylogeny of the tribe Aveneae (Pooideae, Poaceae) inferred from ...
  17. Molecular phylogenetic relationships inAveneae (Poaceae) species ...
  18. Holcus lanatus (common velvet grass) - Go Botany - Native Plant Trust
  19. Holcus mollis (creeping velvet grass) - Go Botany - Native Plant Trust
  20. Holcus lanatus - FNA
  21. Holcus mollis - FNA
  22. Holcus lanatus - FNA - Flora of North America
  23. [PDF] Holcus lanatus L. Common name
  24. [PDF] Washington Invasive Ranking System Holcus lanatus (Common ...
  25. Holcus lanatus - NatureServe Explorer
  26. Holcus lanatus L. - idseed
  27. Holcus lanatus (common velvet grass) | CABI Compendium
  28. Studies in Late Quaternary Deposits and Flora-History of Ireland
  29. Holcus lanatus Profile - California Invasive Plant Council
  30. Common Velvetgrass - Montana Field Guide
  31. FLOWERING BEHAVIOUR, COMPATIBILITY AND MAJOR GENE ...
  32. Holcus lanatus Plant Assessment Form
  33. Native herbivores and environmental heterogeneity as mediators of ...
  34. Responses of insect herbivores to sharing a host plant with a ...
  35. Images (screen-sized) - pathogens of plants of Hawaii
  36. Potential contribution of natural enemies to patterns of ... - PubMed
  37. Presence and identity of arbuscular mycorrhizal fungi influence ...
  38. Effects of management regime and plant species on the enzyme ...
  39. https://www.web.uri.edu/wp-content/uploads/sites/213/Biological_Invasions_2008_102_191-199.pdf
  40. Decomposability of C3 and C4 grass litter sampled under different ...
  41. (PDF) Fungal symbiont diversity drives growth of Holcus lanatus ...
  42. Biodiversity and Community Ecology
  43. Multiple mechanisms enable invasive species to suppress native ...
  44. [PDF] Fire risk report for Holcus lanatus
  45. [PDF] State Noxious-Weed Seed Requirements Recognized in the ...
  46. [PDF] Factors causing dune ephemeral wetlands to be vulnerable to weed ...
  47. Holcus lanatus - New Zealand Plant Conservation Network
  48. Short-term Response of Holcus lanatus L. (Common Velvetgrass) to ...
  49. Weeds: Velvetgrass (Common velvetgrass) – Holcus lanatus
  50. None
  51. [PDF] predicting habitat suitability for invasive velvet grass - ScholarWorks
  52. [PDF] Prairie Vegetation Monitoring Protocol for the North Coast and ...
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