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Quercus stellata

Quercus stellata, commonly known as the post oak or iron oak, is a deciduous tree species in the beech family (Fagaceae) native to the eastern and central United States.^[1]^[2] It is a slow-growing, medium-sized tree that typically reaches heights of 40 to 50 feet (12 to 15 meters), occasionally up to 65 feet (20 meters), with a trunk diameter of 1 to 2 feet and a dense, rounded to irregular crown formed by spreading, often twisted or gnarled branches.^[1]^[2] The leaves are alternate, simple, and leathery, measuring 4 to 8 inches (10 to 20 cm) long and 3 to 4 inches (7.5 to 10 cm) wide, with a distinctive cross-like shape featuring three to five rounded lobes—the central pair being the broadest and squarish—accompanied by a hairy, pale underside.^[2]^[1] This species is well-adapted to harsh environments, commonly occurring on dry, rocky ridges, sandy uplands, and nutrient-poor soils in open woodlands, where it demonstrates strong drought and fire resistance but intolerance to shade.^[1]^[2] Its natural range spans from southern New England and New York southward to northern Florida and west to eastern Texas, including 27 states such as Alabama, Arkansas, Connecticut, Georgia, Illinois, Kansas, Kentucky, Louisiana, Maryland, Massachusetts, Missouri, North Carolina, Ohio, Oklahoma, Pennsylvania, and Virginia.^[2] Ecologically, Q. stellata associates with other oaks, hickories, and pines in mixed forests, producing acorns that mature from September to November in cycles every 2 to 3 years, serving as a vital food source for wildlife including deer, bears, turkeys, squirrels, woodpeckers, and various butterflies and moths.^[1]^[2] The wood of the post oak is heavy, hard, and highly rot-resistant, historically prized for fence posts, railroad ties, flooring, and fuel, contributing to its common name.^[1] However, the tree's high tannin content makes raw acorns and leaves mildly toxic to livestock and humans if ingested without processing, potentially causing gastrointestinal distress.^[2] It faces threats from pests like oak wilt, gypsy moths, and chestnut blight, as well as habitat loss, though its resilience supports its role in restoration efforts for degraded dryland ecosystems.^[1]

Taxonomy

Etymology

The genus name Quercus derives from the classical Latin word for "oak," a term employed since ancient Roman times to denote various hardwood trees, as referenced in works by Pliny the Elder and other classical authors.^[3] The specific epithet stellata originates from the Latin stella, meaning "star," alluding to the stellate (star-shaped) trichomes covering the undersides of the leaves.^[4] Quercus stellata was first formally described and named by Adolf Heinrich Friedrich, Freiherr von Wangenheim, in his 1787 publication Beiträge zur teutschen Forstwissenschaft.^[5]

Varieties

Historically, Quercus stellata was considered to comprise three infraspecific varieties, distinguished primarily by leaf morphology, pubescence, growth form, and habitat preferences. These were first formally distinguished by American botanist Charles Sprague Sargent in his 1906 publication The Manual of the Trees of North America.^[1] However, in current taxonomy as of 2025, major authorities such as the Flora of North America and Plants of the World Online do not recognize infraspecific varieties within Q. stellata. Instead, var. margaretta is treated as the distinct species Quercus margaretta (sand post oak), a shrub or small tree adapted to deep sandy or gravelly soils on coastal plains from southeastern Virginia to central Florida and west to Missouri, eastern Oklahoma, and central Texas.^[6]^[7] Similarly, var. paludosa (delta post oak) is synonymous with Quercus similis, a separate species restricted to moist bottomlands in the Mississippi River delta region, including western Mississippi, eastern Louisiana, and adjacent areas.^[1]^[8] The typical form, var. stellata, remains the core of the species, characterized by deeply lobed leaves that often exhibit a distinctive cross-shaped or Maltese cross appearance due to the prominent, rectangular lateral lobes and central lobe. These leaves are typically 100-150 mm long with dense stellate pubescence on the abaxial surface. It occurs across the central United States, from southeastern Massachusetts and New York westward to eastern Kansas and Oklahoma, and southward to eastern Texas and central Florida, favoring xeric uplands, dry ridges, prairies, and limestone hills.^[9]^[6]^[1] No comprehensive genetic studies as of 2025 have been conducted specifically on the historical varietal boundaries of Q. stellata, but broader oak phylogenomic research supports the species-level distinctions for Q. margaretta and Q. similis.^[10]

Hybrids

Quercus stellata forms hybrids with several other oak species, particularly within the white oak section (Quercus sect. Quercus), due to synchronous flowering periods that facilitate interbreeding.^[1] One recognized hybrid is Quercus × fernowii (Trel.), resulting from the cross with Q. alba (white oak), characterized by intermediate leaves that exhibit partial hairiness on the undersurface and a cross-like lobing pattern less pronounced than in pure Q. stellata.^[1]^[11] This hybrid is rare and primarily documented in the northeastern United States, such as in New York.^[11] Another common hybrid is Quercus × stelloides (Palmer), a cross between Q. stellata and Q. prinoides (dwarf chinkapin oak), often appearing as a shrubby form with leaves showing intermediate lobing and reduced stature compared to the tree-like Q. stellata.^[1]^[12] It occurs sporadically in the Midwest, including regions of Missouri, Kansas, and Oklahoma.^[12] Hybrids like these are typically identified through morphological traits, such as blended leaf shapes and pubescence patterns, supplemented by DNA markers in genetic studies of oak syngameons.^[13] In general, Q. stellata hybrids display intermediate characteristics, including variable leaf lobing, diminished acorn viability often limited to F1 generations, and blended drought tolerance between parental species.^[14] Interbreeding is frequent among white oaks owing to overlapping phenology, though no stable hybrid populations have been established as of 2025, with most occurrences representing first-generation (F1) crosses.^[1]^[14] Artificial hybrids have also been produced in cultivation, such as Q. stellata × Q. virginiana (southern live oak) by horticulturist John Neslage in the 1940s, aimed at combining drought resistance with evergreen traits.^[15]

Description

Morphology

Quercus stellata is a medium-sized deciduous tree that typically attains a height of 15-20 m and a diameter at breast height (DBH) of 30-60 cm, although exceptional specimens can reach up to 30 m tall and 1.2 m DBH.^[1]^[9] It exhibits a slow growth rate, with diameter increments of less than 5 cm over a 10-year period and average annual height growth of about 6 cm for seedlings.^[1]^[9] The crown is dense and rounded, featuring prominent horizontal branches that contribute to its distinctive silhouette.^[9] This species is long-lived, with individuals often surviving 300-400 years, and its growth habit is particularly adapted to poor, dry, rocky, or sandy soils, where it displays strong drought resistance.^[9]^[1] The bark of mature Q. stellata trees is thick, ranging from gray to dark brown in color, and develops deep furrows that form irregular blocks or scaly ridges.^[16]^[17] This bark structure provides moderate resistance to fire, enhancing the tree's survival in fire-prone environments.^[9] Leaves are alternate and simple, measuring 10-20 cm long and 5-12 cm wide, with an obovate to elliptical outline.^[16] They bear 3-5 rounded lobes (occasionally up to 7), arranged in a characteristic cross-like or Maltese cross configuration, where the central lobes are broader and extend at right angles from the midrib.^[16]^[17] The upper leaf surface is glossy dark green and relatively smooth, while the lower surface is paler green with dense stellate (star-shaped) pubescence that imparts a fuzzy texture.^[16]^[17] In fall, the foliage turns yellow-brown.^[16] Twigs are slender and gray to yellowish-brown, often bearing stellate hairs and transitioning to gray with age.^[16]^[17] Terminal buds are small, ovoid to rounded, 2-5 mm in length, and reddish-brown in color.^[16]^[17]

Reproduction

Quercus stellata is monoecious, producing both staminate and pistillate flowers on the same tree.^[1] The staminate flowers form pendant catkins measuring 5 to 10 cm in length, while the pistillate flowers occur in the axils of new leaves.^[1] Flowering coincides with leaf emergence and typically occurs from March in southern regions to May or June in northern areas, depending on latitude and elevation.^[9] Pollination is anemophilous, with wind dispersing pollen from male to female flowers on neighboring trees to promote cross-fertilization.^[18] The tree produces acorns that mature in a single growing season, ripening and dropping from September through November.^[1] These acorns are oval to ovoid-oblong in shape, measuring 13 to 19 mm in length, and are enclosed about one-third to one-half of their length in a bowl-shaped cup covered with small, appressed, light gray to tan scales.^[1] The nuts themselves are reddish-brown and bitter, containing tannins that deter predation.^[2]^[19] Seed production in Quercus stellata begins around 25 years of age.^[1] Good acorn crops occur irregularly, typically every 2 to 3 years, with overall yields lower than those of Quercus alba or other co-occurring oaks such as blackjack oak and black oak.^[9] Over an 18-year study in Louisiana and Texas, average annual production was approximately 476 viable acorns per kg of fresh weight (at 39% moisture), with per-tree yields ranging from 0.9 kg for trees with a 3 m crown radius to 5.5 kg for those with a 6.1 m crown radius.^[1] In Missouri, long-term monitoring showed an average of 200 acorns per tree annually across a 6-year period.^[1] Acorns of Quercus stellata exhibit no dormancy and germinate hypogeally in the autumn shortly after dispersal.^[1] Optimal germination occurs on moist mineral soil covered with at least 2.5 cm of leaf litter, which protects the radicle and provides suitable microsite conditions.^[9] Freshly fallen acorns achieve high germination rates exceeding 90% when sown in fall, though viability drops below 50% for seeds stored overwinter due to desiccation and fungal issues.^[20] In natural settings, overall seedling establishment success is reduced to 20-40% by factors such as predation, desiccation, and competition.^[20]

Similar species

Quercus stellata is most commonly confused with Quercus alba (white oak), which shares membership in the white oak group but exhibits less pubescent leaves with 7–9 rounded lobes that are not arranged in a distinctive cross shape.^[17] Unlike Q. stellata's leaves, which feature dense stellate hairs on the abaxial surface giving a yellowish-gray appearance, Q. alba leaves are smoother beneath with only slight pubescence and paler bluish undersides.^[21] Additionally, Q. alba has a wider ecological amplitude, occurring in mesic to slightly dry sites, whereas Q. stellata is restricted to drier uplands.^[17] Another look-alike is Quercus macrocarpa (bur oak), distinguished by its larger acorns (1–2 inches long) with a deep, fringed cup covering half to nearly all of the nut, compared to the smaller acorns (0.38–0.75 inches) of Q. stellata with a saucer-shaped cup enclosing one-quarter to two-thirds.^[17] Leaf lobes in Q. macrocarpa are more irregular and deeply incised, often with the upper lobes larger and fringed, contrasting the blocky, right-angled, cross-like lobes of Q. stellata.^[22] Both species have pubescent leaf undersides, but Q. macrocarpa twigs and buds are more densely hairy.^[17] Quercus muehlenbergii (chinkapin oak) resembles Q. stellata in some upland settings but has unlobed, chestnut-like leaves with coarsely toothed margins and a shiny dark green upper surface, lacking the lobed, leathery texture and stellate pubescence of Q. stellata.^[17] Acorns of Q. muehlenbergii are slightly larger (0.63–1 inch) with a cup covering one-quarter to one-half, and its habitat preference for calcareous soils further aids differentiation.^[17] Field identification of Q. stellata relies on examining the leaf underside for dense, star-shaped (stellate) hairs and confirming the cross-shaped lobe arrangement, particularly in dry upland habitats; acorns mature in one season, like other white oaks but faster than red oaks.^[21]^[23] Hybrid forms with Q. alba and others may blur traits but are detailed elsewhere.^[17]

Distribution and habitat

Geographic range

Quercus stellata, commonly known as post oak, is native to eastern North America, with its range extending from southern Massachusetts and Rhode Island westward to Iowa and Nebraska, and southward to Florida, Texas, and Oklahoma.^[24] The species is particularly abundant in the central United States, where it dominates the Post Oak Belt, a hardwood forest region spanning eastern Texas and central Oklahoma.^[25] The overall native distribution spans a vast area across more than 25 states, making it a common component of upland forests and woodlands in the region.^[26] Outside its native range, Quercus stellata has been introduced sporadically in Europe, including in arboreta in the United Kingdom, though it remains uncommon and has not naturalized.^[27] As of 2023, the species' range is considered stable, with NatureServe assigning it a global conservation status of G5 (globally secure).^[24]

Habitat preferences

Quercus stellata thrives in a variety of soil types but shows a strong preference for dry, well-drained, sandy or rocky uplands that are nutrient-poor and low in organic matter.^[9] These soils are typically coarse-textured, including gravelly or serpentine substrates, with good drainage essential to prevent root rot.^[1] The species tolerates clay soils but favors acidic to neutral pH levels ranging from 5.5 to 7.0, though it can adapt to slightly more alkaline conditions in specific locales.^[2] While it can grow in heavier loams, it generally avoids floodplains and poorly drained sites, except for the variety Q. stellata var. paludosa, which occurs in seasonal wetlands.^[9]^[3] In terms of climate, Quercus stellata is adapted to temperate conditions across USDA hardiness zones 5 to 9, enduring mean annual temperatures from 10°C to 22°C and minimum temperatures as low as -40°C.^[1]^[2] Annual precipitation in its preferred habitats varies from 560 to 1520 mm (22 to 60 in), though it demonstrates excellent drought tolerance once established, making it suitable for xeric environments.^[1]^[3] The species commonly associates with other oaks and hardwoods in oak-hickory forests, including Quercus alba (white oak) and Quercus falcata (southern red oak), as well as hickories (Carya spp.), black oak (Q. velutina), and scarlet oak (Q. coccinea).^[9] It also appears on the edges of prairies, limestone hills, and in savanna-like settings, often alongside pines (Pinus spp.) and blackjack oak (Q. marilandica).^[1] Elevations typically range from 0–900 m (0–2,950 ft), rarely up to 1,500 m (4,920 ft) in the southern Appalachian Mountains.^[9] Microhabitats favored by Quercus stellata include open woodlands, forest borders, and dry ridges, where it forms part of the canopy in upland ecosystems.^[24] In contrast, var. paludosa is more restricted to moist, seasonally flooded bottomlands and terraces in the Mississippi Delta region.^[9]

Ecology

Adaptations

Quercus stellata exhibits several key adaptations that enable its persistence in xeric environments, particularly through enhanced drought resistance. The species develops a deep taproot system, capable of reaching depths up to four meters, which allows access to subsurface water reserves during prolonged dry periods. This structural adaptation, combined with physiological mechanisms such as allowing midday leaf water potential to decline under drought stress while exhibiting less sensitivity to vapor pressure deficit, keeping stomata relatively more open compared to co-occurring species, helps tolerate water deficits. As an anisohydric species, Q. stellata exhibits this strategy by permitting greater water stress without immediate hydraulic failure.^[28]^[29] The wood of Quercus stellata demonstrates notable rot resistance due to its high tannin content, which inhibits fungal decay and enhances durability in moist conditions. This chemical defense contributes to the species' classification as moderately to very resistant to decay, a trait that has supported its use in durable applications historically.^[1] In terms of growth strategy, Q. stellata employs a slow juvenile growth rate. Additionally, the species is capable of vigorous resprouting from the root collar following top-kill from disturbances, allowing rapid recovery and allocation of resources to new shoots that often outpace seedling establishment. A 2022 study in Kansas woodlands highlighted its superior drought tolerance compared to Quercus alba, with relative survival advantages underscoring these adaptive traits in xeric settings.^[9]^[30]

Wildlife interactions

Quercus stellata serves as a vital food source for various wildlife species, particularly through its acorns, which are consumed by white-tailed deer (Odocoileus virginianus), wild turkey (Meleagris gallopavo), and squirrels such as the gray squirrel (Sciurus carolinensis).^[9] These acorns provide essential mast for fall migration and winter sustenance, supporting population dynamics in oak-dominated ecosystems.^[1] Additionally, the leaves support herbivorous insects, including the caterpillars of the red-banded hairstreak butterfly (Calycopis cecrops), which feed on oak litter and contribute to lepidopteran diversity.^[31] The tree's structure offers shelter and habitat for numerous organisms. Its rough, blocky bark creates crevices that harbor insects, which in turn attract foraging birds and small mammals.^[9] The dense, rounded crown provides protective cover and nesting sites for cavity-nesting birds, such as the Carolina chickadee (Poecile carolinensis), enhancing avian reproduction in woodland habitats.^[26] While beneficial to many species, Q. stellata exhibits negative interactions with certain animals. High tannin content in acorns and leaves can cause toxicity in livestock, leading to acorn poisoning in cattle characterized by gastrointestinal damage and renal issues. Furthermore, intense browsing by white-tailed deer suppresses sapling recruitment; in a Kansas xeric woodland study, 86.6% of exposed post oak saplings were browsed over five years, significantly reducing height growth and biomass compared to protected individuals.^[32] Pollination in Q. stellata is primarily anemophilous, relying on wind dispersal of pollen from male catkins to female flowers.^[33] However, bees occasionally visit the flowers to collect protein-rich pollen, supplementing wind-mediated transfer in some contexts.^[34]

Fire ecology

Quercus stellata exhibits moderate fire resistance, attributed to its thick, furrowed bark that insulates the underlying cambium from heat during low-intensity surface fires. This allows mature trees to survive such events with low mortality rates, while smaller trees may experience top-kill but retain viability through resprouting. Low-intensity fires also promote acorn germination by scarifying seed coats, reducing competing vegetation, and creating suitable microsites, though high fuel loads can inhibit this process.^[9]^[35] The species regenerates effectively post-fire via vigorous sprouting from the root crown, particularly in individuals up to 25 cm in diameter at breast height, enabling rapid recovery and persistence in fire-prone landscapes. This resprouting capacity has historically maintained Q. stellata as a dominant species in open savannas and prairies, such as those in southern Illinois, where frequent burning prevented encroachment by less fire-tolerant vegetation.^[9] Annual growth rings in Q. stellata often preserve fire scars, facilitating dendrochronological reconstruction of historical fire regimes. A notable example is a 226-year record from post oak woodlands in Hamilton County, Illinois (1776–2002), which documented numerous fires, with over 30 in the presettlement fire era alone, and highlighted a shift from frequent pre-settlement burning to suppression-induced changes in forest composition. Q. stellata thrives under fire return intervals of 2-5 years, as evidenced by mean intervals of approximately 2 years in presettlement Illinois woodlands, which supported its open-canopy dominance. Fire suppression, however, leads to its decline, as reduced burning favors shade-tolerant competitors and results in denser, less resilient stands.^[9]

Conservation

Status

Quercus stellata is assessed as Least Concern (LC) on the IUCN Red List, with the most recent evaluation conducted in 2015 and no subsequent updates as of 2025. Globally, NatureServe ranks it as G5 (secure), indicating it is demonstrably secure and common across its range, with this status last reviewed on July 8, 2024.^[24] The species is estimated to have over 4,000 occurrences rangewide based on data from 1993 to 2024.^[24] In the United States, Q. stellata holds a national rank of N5 (secure) from NatureServe and is not listed under the Endangered Species Act.^[24] State-level ranks vary, reflecting differences in abundance and range position; for example, it is unranked (SNR) in Texas, where it is common, and S4 (apparently secure) in New York, at the northern edge of its distribution.^[24] Overall population trends are stable, with no significant declines reported since 2000 according to USDA Forest Service inventory data.^[36] Monitoring of Q. stellata occurs through citizen science platforms like iNaturalist, which aggregates observations to track distribution and phenology, and state herbaria collections that document vouchered specimens.^[37] No varieties of the species are considered endangered.^[24]

Threats

Habitat fragmentation poses a significant threat to Quercus stellata populations, primarily through urbanization and agricultural expansion that convert dry upland forests into developed or cropland areas. In Texas, where the species is prominent in the Post Oak Belt, habitat loss has been substantial, with estimates indicating a 5-10% reduction in post oak savanna breeding habitats since 1990 due to these pressures.^[38] This fragmentation isolates remnant populations, reducing genetic diversity and limiting natural dispersal.^[39] Fire suppression in Q. stellata-dominated ecosystems disrupts the natural disturbance regime, favoring succession to shade-tolerant mesophytic species such as maples and hickories that outcompete oak regeneration. Without periodic fires, which historically maintained open woodlands, mesophytes encroach and alter understory composition, leading to denser canopies that inhibit oak seedling establishment.^[40] Additionally, fire exclusion exacerbates competition from invasive species, including bush honeysuckle (Lonicera maackii), which proliferates in disturbed understories and suppresses oak seedlings through shading and resource competition.^[41] Climate change presents both potential benefits and risks to Q. stellata, as its drought tolerance may allow persistence amid increasing aridity, but extreme events like wildfires can cause high mortality. The 2024 Texas Panhandle wildfires, exacerbated by dry conditions and high winds, burned over 1 million acres of grassland and woodland habitats.^[42] Projections indicate that warming could drive a northward range shift of approximately 300-700 km by 2100 under high-emission scenarios, potentially contracting southern extents while expanding into currently unsuitable northern regions.^[43] Other threats include minor contributions from oak decline pathogens and overbrowsing in restoration sites. Phytophthora species, such as P. quercina, have been associated with root rot and decline in oaks, though their impact on Q. stellata remains limited compared to other stressors like drought.^[44] In restored woodlands, excessive deer browsing heavily damages Q. stellata seedlings and saplings, hindering post-fire recovery and recruitment even in canopy gaps.^[30]

Cultivation and uses

Cultivation

Quercus stellata is primarily propagated by seed, which should be sown immediately after collection in the fall to achieve high germination rates exceeding 90%. Seeds lack physiological dormancy and require no stratification; they are planted 3/4 to 1 inch deep in furrows spaced 2 inches apart in raised beds or well-drained sandy soil with adequate moisture. Fall planting is optimal, with outplanting of seedlings occurring during dormancy from first frost to last frost.^[20] Due to its deep taproot system, transplanting bare-root seedlings is challenging and often leads to poor survival if weeds disturb the roots; container-grown stock is recommended to protect the root structure and improve establishment.^[45] Propagation via cuttings is rare and not commonly practiced.^[20] In cultivation, Quercus stellata thrives in full sun on well-drained, acidic sandy or loamy soils, tolerating a wide range of conditions from poor, dry sites to heavier clays, though it performs best on low-fertility uplands. It is hardy in USDA zones 5a to 9b and exhibits strong drought tolerance once established, requiring supplemental irrigation only during the first two years to support root development.^[2] Establishment is slow, with trees typically taking 5 to 10 years to reach 2 meters in height at a growth rate of 12 to 24 inches per year under optimal conditions. Pest issues are generally minimal, though defoliation by gypsy moth (Lymantria dispar) can occur and lead to growth losses in susceptible areas.^[31]^[1] In horticulture, Quercus stellata is valued for urban planting as a shade or street tree, as well as in restoration projects for its adaptability to tough sites and resistance to drought and fire. No standard cultivars are widely available.^[2]

Human uses

The wood of Quercus stellata, known as post oak, is valued for its rot resistance and durability, making it suitable for applications such as fence posts, railroad ties, and construction timbers.^[46] This resistance to decay stems from its classification within the white oak group, allowing posts to endure prolonged exposure to soil and moisture.^[46] The wood has an average dried density of 0.75 g/cm³ and a Janka hardness of 1,350 lbf, exceeding that of red oak (1,290 lbf) and contributing to its strength in load-bearing uses like barrels for aging liquors.^[46] Beyond timber, post oak bark contains tannins historically extracted for leather tanning, a practice common to many oak species that preserves hides through natural chemical binding.^[47] Native American communities in the tree's range processed post oak acorns by leaching out bitter tannins to produce flour for breads and porridges, a staple food source adapted from broader oak utilization.^[48] In modern culinary traditions, particularly in Central Texas, post oak is a preferred smoking wood for barbecue due to its mild, clean flavor that enhances beef without overpowering it.^[49] Culturally, post oak holds symbolic importance in prairie transition zones like the Cross Timbers of Oklahoma and Texas, where it represents resilience in fragmented woodland ecosystems.^[1] Its extreme drought tolerance also makes it a choice for urban landscaping in arid or low-water sites, providing shade and structure without heavy irrigation needs.^[50] Economically, post oak is a minor component of U.S. forestry, with low commercial harvest volumes compared to more dominant oaks, often marketed collectively as white oak lumber.^[51]

References

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Quercus stellata Wangenh - Southern Research Station - USDA
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Quercus stellata (Oaks, Post Oak)
Post Oak is a deciduous tree that may grow 40 to 50 feet tall and is common in the poorer soils of the Piedmont but is also found in the mountains.
[3]
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### Summary for Quercus stellata
[4]
Quercus stellata | Landscape Plants | Oregon State University
Broadleaf deciduous tree, small to medium sized, to 65 ft (20 m) tall with a crown of horizontal braches that may be gnarled and twisted.
[5]
Quercus stellata Wangenh. | Plants of the World Online | Kew Science
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Link to Flora of North America home. All Floras Advanced Search. FNA Vol. 3 ... Quercus stellata Wangenheim, Beytr. Teut. Forstwiss. 78, plate 6, fig. 15 ...
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The following varieties are recognized [30]: Quercus stellata var. paludosa Sarg., Delta post oak Quercus stellata var. stellata, post oak Identification of ...
[8]
Quercus similis - Georgia Biodiversity Portal
Swamp Post Oak was formerly considered a variety of Post Oak named Quercus stellata var. paludosa. Post Oak leaves are more or less cross-shaped with a ...
[9]
Quercus x fernowii (Q. alba x Q. stellata) - New York Metropolitan Flora
This hybrid oak results from the crossing of white and post oaks. Although specimens have not been observed, there is one record from Staten Island based on the ...
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Oaks of the World ; Synonyms, prinoides x stellata ; Local names ; Range, Missouri, Kansas, Oklahoma; ; Growth habit, rarely exceeding 3 m. ; Leaves.
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A nuclear DNA barcode for eastern North American oaks and ... - NIH
Quercus stellata‐74 was placed next to the clade of Q. alba, suggesting hybrid origin (Supplementary File 4). 3.4. Species integrity in a botanical garden.
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The supposed parentage of X Quercus pseudomargaretta was given by Trelease as Q. Margaretta X stellata. According to Sargent Q. Margaretta is a variety of Q.
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**Morphological Description of Quercus stellata (USDA PLANTS Profile):**
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The genus Quercus is generally divided into two major groups: red (Table 1) and white (Table 2) oaks. White oaks are in the Quercus subgenus Leucobalanus and ...
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Sep 27, 2017 · Oaks can produce viable hybrids that are capable of producing acorns. Individual oak trees usually take about 30 years before they produce ...
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Acorns of white oaks (Q. muehlenbergii, Q. virginiana, Q. lyrate, and Q. stellata) are better tasting than those of red oaks because they have fewer tannins.<|control11|><|separator|>
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Fall sown seed typically exhibits >90% germination, while seeds stored overwinter exhibit greatly reduced germination; typically <50%. Pre-Planting Treatments: ...Missing: stratification | Show results with:stratification
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• Quercus stellata | Flora of North America (About This Site). • Quercus alba | Biota of North America Project (BONAP) (About This Site). • Quercus stellata ...
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Post Oaks vs Bur Oaks: What's the Difference? - TreeNewal
Mar 10, 2022 · Post oak trees are most easily identified by their uniquely patterned and roughly textured foliage and the pale yellow fuzz on the underside of the dark green ...
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Managing Hardwood Stands for Acorn Production
However, wind pollination and some variation in the timing of male and female flowers on an individual tree ensures cross-pollination among nearby trees.
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Quercus stellata is a common tree found on ridges and uplands, prairies, limestone hills, woodlands, and deciduous forests of eastern North America.Missing: var. paludosa
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Quercus stellata, or Post Oak, is a 40-50 ft deciduous tree with a dense, oval crown, lobed leaves, and is common in Texas, often in sandy soils.
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Mar 30, 2017 · Below is the list of 19 species whose northern range limit reaches the ghost boundary of the Laurentide Glacier. ... post oak (Q. stellata).
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Quercus stellata, or Post Oak, is a deciduous tree with rough, dark green leaves, native to the US, growing 50-60 ft high.
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[30]
Deer browsing and light availability limit post oak (Quercus stellata ...
Sep 1, 2022 · We conclude that deer browsing reduces post oak recruitment in canopy gaps in these xeric woodlands. Further, under current browsing intensity, fire return ...Missing: glaciation | Show results with:glaciation
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Post Oak - Grow Native!
Red-banded hairstreak butterfly caterpillars feed on decaying sumac leaves and oak litter. Oak species, as a group, serve as host plants for caterpillars of ...
[32]
https://doi.org/10.1016/j.foreco.2022.120346
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Post Oak (Quercus stellata) - Illinois Wildflowers
The growth rate is relatively slow; individual trees can live 200-400 years. Acorns are produced on individual trees in about 25 years. The acorns do not ...
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Pollination | Minnesota Native Bees
Many canopy trees in temperate ecosystems rely upon wind pollination. Some such as Quercus (oak) have a high pollen protein content attracting female bees that ...
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Impacts of increasing fine fuel loads on acorn germination and early ...
Jan 14, 2021 · Prescribed fire is increasingly used to restore and maintain upland oak (Quercus L. spp.) ecosystems in the central and eastern US.
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post oak (Quercus stellata) - Forest Service - USDA
Post oak is widely distributed (17.5% of area), dense, high IV, and abundant, especially in the western portion of the southern US.
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post oak (Quercus stellata) - iNaturalist
Conservation Status. Place, Conservation Status, Source, Taxon Geoprivacy. Globally. least concern (LC). IUCN Red List. Open. About Conservation Status. The ...
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[PDF] US Fish and Wildlife Service - Texas A&M Natural Resources Institute
... loss in breeding habitat of 5–10% since 1990. However, post ... Habitat loss and fragmentation also threaten pine-oak forests on the wintering grounds.
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[PDF] WILDLIFE MANAGEMENT ACTIVITIES AND PRACTICES
Direct habitat loss and fragmentation due to urban and. Page 111. suburban development is a major threat in expanding urban areas of Travis, McLennan,. Dallas ...
[40]
Mesophication of Oak Landscapes: Evidence, Knowledge Gaps ...
Jan 27, 2021 · Phase 1 of the mesophication hypothesis (figure 2b) speculates that long-term fire exclusion from oak landscapes fostered mesophyte ...
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[PDF] Central Hardwoods ecosystem vulnerability assessment and synthesis
Major current threats to forests in the area include invasive species, habitat fragmentation ... post oak and shortleaf and loblolly pine may benefit from.
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Climate context of the February 2024 megafire outbreak in Texas
Mar 7, 2024 · One analysis projected that with high greenhouse gas emissions, warming by the middle of the century would increase the risk of very large fires ...
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Potential Impacts of Climate Change on the Distribution of North ...
Climate change may cause North American trees to shift northward, with a 700km shift in full dispersal and 330km in no dispersal scenarios.
[44]
Phytophthora Species Detected in Two Ozark Forests with Unusual ...
Nov 6, 2018 · Widespread decline and mortality of white oaks (Quercus alba) occurred in Missouri Ozark forests between 2011 and 2017.
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Post Oak | Missouri Department of Conservation
A slow-growing, drought-resistant tree, it is difficult to transplant and does better on sites where it is already found growing. Post oaks can live 300 years ...
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Post Oak | The Wood Database (Hardwood)
Post Oak (Quercus stellata) ... Comments: Post Oak falls into the white oak group, and shares many of the same traits as White Oak (Quercus alba).
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Vegetable Tanning Materials, Tannin Rich Barks, Roots and Leaves ...
Nov 3, 2018 · Most plants with enough tannin will make at least okay, useable leather for a home tanner. The color will also vary a lot from dark brown, to pinkish, red, ...
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How to Make Acorn Flour - Cupcake Project
73 hrNov 3, 2020 · Acorn flour is fun to make and totally edible! Native Americans have been grinding acorns into flour and using the flour to make hearty stews ...Instructions · Collecting Acorns · Leaching Tannins
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Post Oak Wood for Smoking, BBQ & Cooking | B&B Charcoal
Rating 5.0 (5) Apr 28, 2023 · B&B Post Oak Wood is the essential go-to wood for smoking, BBQ, and cooking, imparting a mild to medium smoky flavor without overpowering.
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Post Oak - Tree selection - Edward F. Gilman - UF/IFAS
Native trees are very sensitive to soil compaction, drainage changes and soil disturbance. Unfortunately, the tree is usually not available in nurseries. Most ...Missing: resprouting collar
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Post Oak (Quercus stellata) - bplant.org
Although the above oaks are more closely-related, hybrids are more likely to form with other species that overlap more in range and bloom time. The hybrid with ...