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This article is about the genus of flowering plants called Medlar. For other uses, see Medlar.

Mespilus
Common medlar foliage and fruit
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Rosales
Family: Rosaceae
Subfamily: Amygdaloideae
Tribe: Maleae
Subtribe: Malinae
Genus: Mespilus
Bosc ex Spach
Species

Mespilus germanica

Common medlar flowers
Medlar fruit, cv. 'Nefle Precoce'

Mespilus, commonly called medlar, is a monotypic genus of flowering plants in the family Rosaceae containing the single species Mespilus germanica of southwest Asia. It is also found in some countries in the Balkans, especially in Albanian, Macedonian and Bulgarian regions, and in western parts of Caucasian Georgia. A second proposed species, Mespilus canescens, discovered in North America in 1990, proved to be a hybrid between M. germanica and one or more species of hawthorn, and is properly known as × Crataemespilus canescens.[1]

Plant

[edit]

Mespilus forms deciduous large shrubs to small trees growing up to 8 m (26 ft) tall. The fruit is a matte brown pome.

History

[edit]

Mespilus germanica is apparently native only to southwest Asia and southeastern Europe, i.e. near the Black Sea coast and western Mediterranean, and Asia Minor, as well as the Caucasus and northern Iran, but it has an ancient history of cultivation and wild plants exist in a much wider area; it was grown by the ancient Greeks and Romans, beginning in the second century BC. It was a very popular fruit in Western Europe during the Middle Ages, but has fallen out of favour there.[2]

Extant Species

[edit]
Image Scientific name Common name Distribution
Mespilus canescens Stern's medlar Prairie County, Arkansas, United States
Mespilus germanica medlar or common medlar Tabaristan (Iran), southwest Asia and also southeastern Europe
[edit]

Within the subfamily Amygdaloideae, Mespilus is most closely related to Crataegus, Amelanchier, Peraphyllum, and Malacomeles.[3]

Many authors group Mespilus together with Crataegus in a single genus. When thus combined, the correct species name is Crataegus germanica (L.) Kuntze.[4][5][6][7][8][9]

The common name “snowy mespilus” attaches to certain species of Amelanchier, notably Amelanchier × lamarckii and Amelanchier ovalis.

The genus Eriobotrya was once considered to be closely related to Mespilus. The loquat, one of several Eriobotrya species, was formerly thought to be closely related to the genus Mespilus, and is still sometimes known in some European countries as a medlar and is still sometimes called the "Japanese medlar".

Fruit

[edit]

Mespilus germanica features an unusual apple-like fruit. In southern Europe, the medlar fruit ripen fully and can be eaten off the tree, but in northern climates, they require bletting to eat.[10] This process involves ripening fruit off the tree, usually in a bowl, until soft. Each fruit contains a half dozen or so hard, irregularly shaped seeds that require stratification to germinate. Many cultivars exist, and they are increasingly popular selections carried by perennial and edible landscaping nurseries in North America.

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Mespilus

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from Grokipedia
Mespilus is a genus of flowering plants in the family Rosaceae, consisting of deciduous shrubs or small trees characterized by spiny, twisted branches and pome fruits known as medlars.[1][2] Traditionally considered monotypic with the single species Mespilus germanica, the common medlar, the genus is native to woodlands and scrub areas of southeastern Europe, southwest Asia, and the Caucasus region.[3][1] Mespilus germanica typically grows 4–6 meters (13–20 feet) tall, featuring simple, oblong leaves up to 12 cm long, white to pale pink flowers about 3–4 cm in diameter with five petals that bloom in late spring, and round to turbinate brown pomes 2–4 cm across that mature in autumn.[2][1] The fruits are inedible when fresh due to their astringency and hardness but become soft, sweet, and edible after bletting—a post-harvest ripening process often induced by frost—yielding a flavor reminiscent of applesauce with cinnamon notes.[1] This species has been cultivated since Roman times for its fruit, which was valued in medieval Europe for culinary uses in jellies, pies, and liqueurs, as well as for ornamental hedging due to its thorny habit and attractive fall color.[4][1] Taxonomically, Mespilus is closely related to Crataegus (hawthorns) within the subtribe Pyrinae, sharing pome fruit structure but distinguished by features like persistent calyces and more numerous stamens (25–35) in flowers.[2] Recent molecular phylogenetic studies, including chloroplast genome analyses, support treating Mespilus as a monotypic section within an expanded Crataegus, though it remains recognized as a distinct genus in many floras.[5][6] A second species, Mespilus canescens (Stern's medlar), was described in 1990 from rare populations in Arkansas, United States, featuring smaller red pomes and grayish pubescence, but its status as a true species or a hybrid is debated among botanists. It is critically endangered, with only about 25 known wild individuals remaining.[7][8]

Taxonomy

Classification

The genus Mespilus belongs to the family Rosaceae, order Rosales, within the subfamily Amygdaloideae and tribe Maleae.[9][10] The subfamily Amygdaloideae was formerly recognized as Maloideae before molecular phylogenetic studies merged it with the broader Amygdaloideae clade based on shared chromosomal and morphological traits.[10] Historically, Mespilus was considered monotypic, comprising only M. germanica, but a second species, M. canescens, was described in 1990 from Arkansas, marking the first North American record for the genus.[11] Taxonomic debates have persisted, with early classifications sometimes subsuming Mespilus under the related genus Crataegus due to similarities in pome fruits and floral structures; however, DNA sequence analyses, including nuclear and chloroplast markers, indicate that Mespilus and Crataegus are closely related sister genera within Maleae, though some studies suggest subsuming Mespilus within an expanded Crataegus.[12] The genus name Mespilus originates from the Latin "mespilus," derived from the ancient Greek "mespilon," referring to the medlar fruit.[13]

Species

The genus Mespilus comprises two recognized species, with Mespilus germanica serving as the type species and the sole widely distributed member.[14] Mespilus germanica, commonly known as the common medlar, is native to woodland and scrub habitats in southeastern Europe and southwest Asia, including areas near the Black Sea, the Caucasus, and Asia Minor.[1] Mespilus canescens, known as Stern's medlar, is a rare endemic shrub discovered in 1968–1969 in a deciduous grove in Prairie County, Arkansas, USA, and formally described as a new species in 1990. It is considered a North American novelty in the genus. Its taxonomic status remains debated, with molecular and morphological evidence suggesting it may be a sterile triploid hybrid between M. germanica and native Crataegus species, leading some authorities to classify it as ×Crataemespilus canescens.[11][15][16] Key distinguishing features include the smooth, gray-brown bark and larger, seeded fruits (up to 3 cm diameter) of M. germanica, contrasted with the woolly, hoary young twigs and smaller, seedless fruits (about 1–2 cm diameter) of M. canescens.[14][16][17] Mespilus canescens is critically endangered, with only about 25 known individuals remaining in a single 9-hectare protected grove, threatened primarily by habitat loss from agricultural conversion and isolation.[18][8][17]

Description

Morphology

Mespilus species are deciduous small trees or large shrubs, typically growing 3–6 m tall, though some can reach up to 8 m, with a broad, rounded crown formed by spiny, twisted branches bearing straight, blackish thorns 1–2 cm long.[14][1][19] The leaves are alternate, simple, and elliptic to obovate or lanceolate in shape, measuring 5–15 cm long and 3–6 cm wide, with a dull green upper surface and pubescent undersides; they often develop vibrant red hues in autumn.[19][14][1] Flowers are hermaphroditic, solitary or in small clusters, and measure 2–3.5 cm in diameter, featuring five white to pale pink petals that are circular and apically notched; they bloom in late spring to early summer and are primarily pollinated by insects.[14][1][19] The fruits are pomes, spherical to top-shaped, 2–4 cm in diameter in cultivated forms (1–2.5 cm in wild specimens), maturing to a brown color with persistent, open calyx lobes at the apex; each pome contains 1–5 pyrenes enclosing flake-like seeds.[14][19][1][20] M. canescens is a multi-stemmed shrub or small tree reaching 4.5–6 m tall, with grayish pubescence on young branchlets and leaves that are elliptic, up to 4 cm long, and green. Its flowers are white, five-petaled, blooming in May, and fruits are small spherical pomes up to 1 cm in diameter, deep glossy red when ripe, with persistent calyces.[7] The root system is branching and deep, forming a heart root that divides into several primary roots extending outward and downward, supporting the plant's drought tolerance.[20][21][22] The bark is grayish on mature trunks, often flaking to reveal orange-brown inner layers, and features numerous small horizontal lenticels, particularly on younger twigs which are also slightly hairy.[14][2][23]

Distribution and Habitat

Mespilus germanica, the common medlar, is native to woodland and scrub habitats across southeastern Europe, including the Balkans, and extending to southwest Asia through the Caucasus region and into Iran.[1] This species thrives in temperate climates, favoring woodland edges and areas with partial shade, where it can reach heights of up to 6 meters.[9] It prefers well-drained loamy soils that are moist and fertile, with a pH range of 6 to 7, and demonstrates tolerance to drought and soils of moderate to low fertility once established.[24] In its natural range, M. germanica is adapted to elevations up to 700 meters in scrubby environments, contributing to its resilience in varied microhabitats.[9] A second species, Mespilus canescens (Stern's medlar), is a critically endangered endemic restricted to a single 22-acre deciduous grove in the Grand Prairie region of eastern Arkansas, USA, specifically at Konecny Grove Natural Area.[7] This population, consisting of approximately 25 trees and shrubs, occurs in association with species such as Crataegus sp., Celtis laevigata, and Morus rubra, within a remnant prairie-woodland transition zone now surrounded by agricultural fields.[8] The habitat features moist, fertile, well-drained loamy soils, often with gritty or sandy components, overlying calcareous substrates typical of the region's prairie soils.[7][25] Both Mespilus species require temperate conditions suited to USDA hardiness zones 5 to 8, with M. germanica exhibiting strong frost hardiness while tolerating moderate summer heat in its native range.[1] They grow best in full sun to light shade on sites protected from strong winds, with M. germanica showing particular adaptability to riverbank-like settings in well-drained loams.[1] For M. canescens, primary threats include habitat fragmentation from agricultural expansion, invasive species such as Lonicera japonica that physically overwhelm plants, alterations to the water table, and chemical runoff from nearby farmlands, all contributing to its critically imperiled status.[8] In contrast, M. germanica faces fewer acute threats in its broader native distribution, though local populations may experience competition from invasive plants in altered landscapes.[1]

History and Cultivation

Historical Significance

The medlar (Mespilus germanica) has been cultivated for approximately 3,000 years, originating in regions of southwestern Asia and southeastern Europe, including Anatolia.[26] The ancient Greek geographer Strabo referenced the fruit in his Geographica (circa 1st century BCE), noting its presence in Pontus, an area of Anatolia, where it was valued among local produce.[27] By around 700 BCE, it had reached Greece, and approximately 200 BCE, it was introduced to Rome, becoming an important fruit crop during the Roman era for its edible pomes and utility in forming hedges due to the plant's dense, thorny growth.[28] Archaeological evidence supports this widespread Roman adoption, with medlar seeds recovered from sites across Europe, including two stones from the 4th-century Roman settlement at Silchester in Britain and additional finds from waterlogged deposits in the lower Rhine valley of Germany, indicating consumption and cultivation as far north as these provinces.[29][30] In medieval Europe, the medlar gained prominence in monastic gardens and ornamental landscapes, prized for its late-season fruit that provided a winter staple after bletting—a process of controlled softening that made the hard, astringent pomes palatable.[31] Its cultural role is evident in literature, such as Geoffrey Chaucer's The Canterbury Tales (late 14th century), where the fruit appears in "The Reeve's Tale" as a metaphor for decay and ripeness, reflecting its symbolic association with patience required for the bletting process.[26] The plant's economic value lay in its reliability for preserved products like jellies and cordials, sustaining communities through lean seasons when fresh produce was scarce.[32] During the Renaissance, selective breeding in Europe produced notable cultivars, including the large-fruited 'Dutch' variety, documented since at least the early 19th century but with roots in centuries-old Dutch horticulture, and 'Breda Giant,' originating from the Netherlands with records of vigorous trees bearing oversized pomes by the 17th century.[14] These developments enhanced its appeal in formal gardens and orchards. However, by the 19th century, the medlar's popularity waned in Europe due to the increased availability of imported late-ripening tropical and subtropical fruits, such as oranges and bananas, which offered sweeter, more convenient alternatives without the need for bletting.[33] In folklore, the medlar symbolized patience and endurance, tied to the deliberate wait for bletting, though it also carried bawdier connotations in heraldry and literature as a emblem of ripeness or vulgarity.[31]

Modern Cultivation Practices

Modern cultivation of Mespilus germanica emphasizes low-input methods suited to its hardy nature, with propagation primarily achieved through grafting onto hawthorn (Crataegus monogyna) rootstock for enhanced vigor and compatibility, or quince (Cydonia oblonga) for more compact forms reaching 4-6 meters in height.[14][34] Seed sowing requires cold stratification at 1-5°C for approximately 90 days to overcome dormancy, after which seeds are sown in a moist, well-drained medium at 15-20°C for germination, though this method yields variable offspring unlike clonal techniques.[20] Semi-hardwood cuttings, taken in summer from one-year-old shoots (10-15 cm long), can be rooted in seedling compost under high humidity, offering a reliable vegetative alternative for replicating desirable traits.[35] Optimal site selection includes full sun to partial shade in wind-sheltered locations, paired with well-drained, loamy soils of slightly acidic pH (6.0-7.5) that retain moderate moisture without waterlogging; heavy clay or alkaline conditions should be amended with organic matter.[34][35] Planting spacing of 4-6 meters between trees accommodates their broad, spreading canopy, with bare-root stock planted in late autumn or winter to promote root establishment before spring growth.[36] Young trees benefit from staking and annual mulching to conserve soil moisture, while established specimens require minimal intervention beyond occasional deep watering during prolonged dry spells. Maintenance practices are straightforward, focusing on winter pruning (late February to March) to eliminate suckers from the rootstock, dead or crossing branches, and to maintain an open goblet shape for better air circulation and fruit access.[14][37] Fertilization is light, typically a balanced organic feed in spring for young trees, as excessive nutrients can reduce fruit quality; mulching with compost suffices for nutrient recycling in mature plantings.[35] Common pests include aphids, managed through insecticidal soaps or natural predators, while fireblight (Erwinia amylovora)—a bacterial disease causing wilted shoots—requires vigilant monitoring and prompt removal of infected parts, especially in warm, humid regions.[38][36] Key cultivars in contemporary cultivation include 'Nottingham', prized for its large, rust-resistant fruits (up to 3 cm) and consistent yields, and 'Royal', a compact, disease-resistant selection with sweet, creamy flesh ideal for smaller gardens.[14][35] The endangered M. canescens (Stern's medlar), whose taxonomic status is debated (potentially a hybrid between M. germanica and a Crataegus species), is limited to approximately 25 wild individuals and is conserved through propagation in botanic gardens like the Missouri Botanical Garden to safeguard genetic diversity.[7][17] Challenges to widespread adoption persist, including low commercial viability stemming from limited market demand and the labor-intensive bletting process needed to soften astringent fruits post-harvest.[39] Climate change exacerbates ripening inconsistencies by reducing late-autumn frosts essential for natural bletting, though the species' resilience to variable conditions supports niche viability.[19] Since the 2000s, revival initiatives in organic farming—such as heritage orchard projects in the UK—have promoted medlars for sustainable, low-pesticide production, emphasizing their pest resistance and adaptability.[40] Globally, Mespilus cultivation centers on temperate regions, with significant plantings in Europe (notably the UK and France) for both fruit and ornamental use, alongside expanding interest in North America (USDA zones 5-8) and Australia, where it serves as a hardy addition to backyard and permaculture systems.[14][41]

Fruit and Uses

Fruit Characteristics

The fruits of Mespilus species develop following pollination, which typically occurs in late spring to early summer around June in temperate regions. They form as pomes after the flowering period from May to June and gradually mature over the summer, reaching harvestable size by October or November while still hard and unripe. These fruits can remain on the tree through winter, exposed to frost, which aids in their post-harvest ripening process.[42][43] In M. germanica, the primary cultivated species, mature fruits are round to oval pomes measuring 2-4 cm in diameter, initially green and turning rusty brown at maturity, with a persistent calyx at the apex and five internal carpels each containing a hard stone (pyrene). The ripening process requires bletting, a unique post-harvest softening where the firm, astringent fruit becomes edible; this can occur naturally via exposure to frost on the tree or through storage in a cool, dry environment at around 10-15°C for 2-3 weeks, during which tannins and acids decrease while starches convert to sugars, resulting in a soft, sweet, date-like pulp. In contrast, fruits of the taxon formerly known as M. canescens (now often classified as the hybrid × Crataemespilus canescens), native to North America and considered critically imperiled with only about 25 known individuals in the wild in Arkansas, are smaller at 0.8-1.2 cm in diameter, glossy red at maturity, and also contain five pyrenes, with less documented cultivation.[1][16][44][17] Nutritionally, M. germanica fruits are low in calories at approximately 50 kcal per 100 g and high in dietary fiber, particularly pectin, which contributes to their mucilaginous texture post-bletting. They provide notable vitamin C content, around 50 mg per 100 g in earlier ripening stages, along with abundant antioxidants such as polyphenols (e.g., chlorogenic acid and total phenolics up to 170 mg GAE/100 g fresh weight). The pome structure, with its gritty stones and fibrous core, underscores their role as a nutrient-dense, low-energy fruit suited for seasonal consumption after proper ripening. Bletted fruits can be stored refrigerated for a few days to a week, or frozen for up to 3 months, to maintain quality, though they are best consumed soon after softening to avoid spoilage.[44][45][46]

Culinary and Medicinal Applications

The bletted fruits of Mespilus germanica are primarily consumed fresh, offering a flavor profile reminiscent of apple-pear sauce with subtle cinnamon notes, though unbletted fruits are inedible due to high tannin content causing astringency.[47][48] These fruits are also transformed into various culinary products, including jams, jellies, liqueurs, and a thick preserve known as medlar cheese, leveraging their naturally high pectin content for setting without additional thickeners.[49][50] Pies and tarts featuring medlar pulp, often spiced with cinnamon and ginger, represent both traditional and contemporary uses, with the fruit's pectin aiding in texture and binding.[51][52] In traditional medicine, medlar fruits have been employed as remedies for digestive issues, with their dietary fiber content promoting bowel regularity and alleviating constipation.[53] Polyphenols in the fruit contribute anti-inflammatory effects, potentially reducing oxidative stress and inflammation-related conditions.[54] Recent studies from the 2020s highlight antidiabetic potential, demonstrating that medlar extracts inhibit α-amylase and exhibit hypoglycemic effects in vitro, suggesting benefits for managing postprandial hyperglycemia.[50][55] Beyond food and medicine, M. germanica serves ornamental purposes in hedging and landscaping due to its attractive form and white spring blossoms.[20] The wood, dense and durable, finds use in small crafts such as tool handles and fishing rods.[14] Bark and roots provide natural dyes, yielding brown and yellow hues in traditional textile applications, particularly in regions like Armenia. Modern interest positions medlars as a superfood owing to their antioxidant-rich profile, including high vitamin C levels that support immune health.[54][56] Early modern recipes, such as spiced medlar tarts from 17th-century English cookbooks, involved straining bletted pulp with sugar, cinnamon, and egg yolks for a custard-like filling.[57] Contemporary preserves continue this legacy, adapting traditional methods for jams and jellies while emphasizing the need to blett fruits to avoid tannin-induced bitterness.[58] In European markets, medlars remain a niche product, with rising demand in France driving prices to 4-7 euros per kilogram as of 2024 and aligning with post-2010 health food trends favoring antioxidant-dense fruits.[59][56]

Related Plants

Phylogenetic Relations

Mespilus is classified within the tribe Maleae of the subfamily Amygdaloideae in the Rosaceae family, a group characterized by pome fruits and complex evolutionary relationships driven by hybridization and polyploidy. Phylogenetic analyses based on chloroplast genomes position the genus in the core Maleae, where it forms a well-supported clade alongside genera such as Crataegus, Amelanchier, and Peraphyllum.[10][60] Molecular studies utilizing multiple chloroplast regions, including psbA-trnH and trnL-trnF, have clarified Mespilus as a distinct monotypic genus (M. germanica) sister to Crataegus, with minimal genetic divergence that has fueled taxonomic debates over whether it warrants separate generic status or sectional placement within Crataegus.[61] Research from the 2010s, incorporating nuclear ITS and chloroplast data, reinforces this close affinity while highlighting Mespilus's morphological adaptations, such as larger fruits suited for carnivore dispersal, distinguishing it from Crataegus.[62] A 2025 chloroplast genome analysis further confirms Mespilus and Crataegus as sister genera but notes ongoing lack of consensus on their taxonomic separation.[6] The North American species M. canescens exemplifies regional divergence, with incongruent chloroplast and nuclear markers indicating its hybrid origin from M. germanica and the native Crataegus brachyacantha, likely resulting from historical introductions of the European medlar. Divergence time estimates from expanded phylogenetic analyses of Pyreae (syn. Maleae) place the split of the Mespilus-Crataegus lineage from the apple (Malus) and pear (Pyrus) clade during the Eocene–Oligocene period (56–23 million years ago), coinciding with the radiation of core Maleae following an earlier whole-genome duplication event in Rosaceae.[63] This temporal framework aligns with the Eocene origin of supertribe Pyrinae, within which hybridization has contributed to reticulate evolution and generic boundaries.[63] The fossil record supports an ancient European presence, with Miocene fruits attributed to Mespilus from the Saugbagger flora in Alsace, eastern France, resembling those of M. germanica and indicating early diversification within Maleae alongside related genera like Crataegus and Sorbus.[64] Evidence of intergeneric hybridization, particularly with Crataegus, further explains ongoing taxonomic ambiguities, as seen in natural and cultivated hybrids like ×Crataemespilus, which exhibit intermediate traits and reduced fertility.[62]

Similar Genera

Mespilus shares several morphological and ecological traits with other genera in the Rosaceae tribe Maleae, particularly in producing pome fruits and occupying temperate habitats, though distinct differences in leaf structure, fruit maturation, and reproductive strategies set it apart.[60] Crataegus, commonly known as hawthorn, exhibits notable similarities to Mespilus in its spiny growth habit and development of pome fruits, both of which are accessory fruits derived from the hypanthium.[65] However, Crataegus species typically bear simple, often lobed leaves rather than the entire-margined leaves of Mespilus, and their pomes ripen earlier in the season, usually by late summer or early autumn, contrasting with the delayed maturation of Mespilus fruits.[66] In cultivation, Crataegus serves as a traditional rootstock for Mespilus due to compatible grafting and its vigorous growth, though it can produce suckers that require management.[37] Sorbus, encompassing rowans and whitebeams, parallels Mespilus in bearing pome fruits and clusters of white hermaphroditic flowers that attract pollinators.[14] Key distinctions include the pinnate, compound leaves of many Sorbus species, such as S. aucuparia, which feature multiple serrated leaflets, unlike the simple leaves of Mespilus; additionally, Sorbus pomes are typically brighter red or orange at maturity. Occasional natural hybrids between Mespilus and Sorbus have been documented, including complex forms like ×Mesaronibus involving additional genera, highlighting potential for intergeneric crossing in shared environments.[14] Amelanchier, or serviceberry, resembles Mespilus as a small deciduous tree or shrub producing edible pomes, with both genera adapted to woodland edges and offering ornamental value through spring blooms and fall color.[24] In contrast, Amelanchier pomes ripen in early to mid-summer, typically June or July, and are consumed fresh without the need for post-harvest softening, differing from the bletting process essential for Mespilus edibility.[67] Mespilus stands out among these genera due to its unique requirement for bletting—a controlled softening and fermentation of the fruit after harvest to achieve palatability—and the persistent calyx lobes that remain attached to the mature pome, forming a star-like crown.[68] These genera overlap ecologically in temperate woodlands of Europe and western Asia, where they thrive in well-drained soils with partial shade, contributing to diverse understory layers.[69] In orchard settings, planting Mespilus alongside Crataegus, Sorbus, or Amelanchier can enhance cross-pollination opportunities, as shared pollinators like bees facilitate gene flow and potential hybrid formation, though Mespilus is largely self-fertile and does not strictly require companions for fruit set.[14] This compatibility supports biodiversity in mixed plantings while allowing for the development of novel cultivars through occasional intergeneric hybridization.[65]

References

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  3. Mespilus germanica L. - USDA Plants Database Plant Profile General
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  6. Insights into Phylogeny, Taxonomy, Origins and Evolution of ...
  7. Mespilus canescens - Plant Finder - Missouri Botanical Garden
  8. Stern's Medlar (Mespilus canescens) - Center for Plant Conservation
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  10. Phylogeny of genera in Maleae (Rosaceae) based on chloroplast ...
  11. Mespilus canescens, a New Rosaceous Endemic from Arkansas - jstor
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  16. A Medlar by Any Other Name - Arnold Arboretum
  17. × Crataemespilus canescens - Trees and Shrubs Online
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  19. Mespilus canescens | NatureServe Explorer
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  21. Mespilus germanica | TreeEbb | Online tree-finding tool
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  24. Unusual Fruit Plants for Gardens in the North Central Region - MSU ...
  25. Arkansas Sprouts
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  27. Medlar (Mespilus germanica) - JungleDragon
  28. Medlar: Strange Fruit of the Ancients - Arboretum Foundation
  29. [PDF] reassessing the early archaeobotanical work of Clement Reid and Ar
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  32. The Medieval Garden Enclosed—Rotten-ripe: The Medlar Goes Soft
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  45. Phytochemistry, nutritional composition, health benefits and future ...
  46. Bioactive content and phenolic compounds of common medlar ... - NIH
  47. Medlar: Ancient, Delicious, and…Rotten?
  48. Exotic taste of the past - Los Angeles Times
  49. How to use Medlars - Wild Walks Southwest - Rachel Lambert
  50. Functional Properties of Fruits of Common Medlar (Mespilus ... - MDPI
  51. What is a Medlar: Taste and Recipes of this Winter Fruit
  52. Some physicochemical properties of wild medlar (Mespilus ...
  53. Common Medlar - healing herbs - Herbs2000.com
  54. Phytochemistry, nutritional composition, health benefits and future ...
  55. (PDF) Functional Properties of Fruits of Common Medlar (Mespilus ...
  56. Effects of Dietary Medlar (Mespilus germanica L.) Extract on Growth ...
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  60. Phylogeny of Maleae (Rosaceae) Based on Multiple Chloroplast ...
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  63. https://doi.org/10.1016/j.ympev.2011.10.005
  64. A brief review of the fossil history of the family Rosaceae with a focus ...
  65. Studies in Mespilus , Crataegus , and × Crataemespilus (Rosaceae ...
  66. Crataegus submollis (Quebec Hawthorn) - Minnesota Wildflowers
  67. Serviceberry, Amelanchier spp. - Wisconsin Horticulture
  68. Mespilus germanica - Cambridge University Botanic Garden
  69. Mespilus germanica (medlar) | CABI Compendium
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