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Rumex

Rumex is a genus of approximately 200 species of flowering plants in the family Polygonaceae, commonly known as docks or sorrels.^[1]^[2] These plants are predominantly perennial herbs, though some are annual or biennial, featuring sturdy taproots or rhizomes, alternate leaves often forming basal rosettes that are lanceolate to ovate (sometimes hastate or sagittate), and paniculate inflorescences bearing small, greenish to reddish flowers in whorls.^[3]^[4] The fruits are triangular achenes enclosed within enlarged, often veiny inner perianth segments (valves) that aid in dispersal.^[5] Native primarily to temperate regions worldwide, with the greatest diversity in the northern hemisphere across Europe, Asia, North America, and parts of Africa, Rumex species thrive in a variety of habitats including disturbed soils, roadsides, wetlands, and grasslands, often up to elevations of 3,500 meters.^[4]^[5] Many species are wind-pollinated and dioecious, with separate male and female plants, contributing to their widespread distribution and, in some cases, invasiveness as agricultural weeds (e.g., R. crispus).^[3]^[4] Several Rumex species hold cultural and practical significance; for instance, the tangy, acid-tasting leaves of sorrels like R. acetosa are used in culinary applications such as salads and soups, while various species have been employed in traditional medicine for treating skin ailments, digestive issues, and inflammation due to their content of anthraquinones, flavonoids, and other phytochemicals.^[5]^[3] Modern pharmacological studies highlight potential bioactivities including antioxidant, antimicrobial, and anti-inflammatory properties, though some species contain oxalates that can be toxic in large quantities.^[5]

Morphology and Description

Plant Structure

Rumex species are primarily herbaceous plants, encompassing annual, biennial, and perennial forms that exhibit erect, ascending, or prostrate habits. They typically develop from sturdy taproots accompanied by fibrous secondary roots, with perennial species often forming basal rosettes of leaves and erect stems reaching heights of 1-2 meters. Stems are generally branched, glabrous or covered in papillose pubescence, and lack hollow or sulcate interiors.^[6]^[7]^[2] The leaves of Rumex are alternate and simple, arranged basally and caulinally, with blades varying from lanceolate to ovate or linear, often featuring entire, undulate, or crisped margins and occasional basal lobes, as exemplified by the wavy-edged leaves of R. crispus. Petioles are prominent on basal leaves and sheathing at the base, while ocreae—membranous sheaths formed from fused stipules—occur at the nodes and may be persistent or partially deciduous. Leaf texture ranges from fleshy to leathery, contributing to the plant's identification in diverse environments.^[6]^[7]^[8] Inflorescences in Rumex manifest as terminal, panicle-like or racemose structures, occasionally axillary, bearing small flowers in verticillate fascicles of 1-30 per ocreate node. Flowers are unisexual or bisexual, with a campanulate perianth of six tepals that are dimorphic—outer ones small and inner ones enlarging in fruit to form veiny valves often armed with tubercles or teeth. The fruit consists of a three-angled, trigonous achene, typically tan to dark brown or reddish, enclosed within the accrescent perianth for dispersal.^[6]^[7]^[5] Morphological variations are evident across the genus's subgenera, such as Rumex (synoecious species with robust ocreae) and Acetosa (dioecious forms with similar but sometimes less prominent sheathing structures), influencing overall plant architecture and reproductive strategies. These differences aid in taxonomic delineation, with approximately 200 species displaying adaptations in leaf dimorphism and fruit tubercle development.^[6]^[7]

Growth Habit and Habitat

Rumex species exhibit a range of growth habits, including annual, biennial, and perennial forms, with the majority being perennial herbs that develop persistent rootstocks for long-term survival.^[5]^[9] Annual species complete their entire life cycle within one growing season, relying on prolific seed production to persist in fluctuating environments, while biennials require two seasons to flower and set seed after an initial vegetative phase.^[9] Perennials, such as Rumex crispus, form robust, branching taproot systems that can extend up to 1.2 meters deep, enabling resource storage and regrowth even after disturbance.^[10]^[11] These plants predominantly favor moist, nitrogen-rich soils in temperate regions, thriving in open environments with minimal shading and tolerating a spectrum from weakly acidic to basic conditions.^[12] They are particularly abundant in disturbed habitats, including roadsides, agricultural fields, waste grounds, and wetlands, where their opportunistic colonization exploits nutrient availability and reduced competition.^[13]^[14] This ruderal affinity allows Rumex to rapidly invade anthropogenic sites, often forming dense stands in early successional stages. Key adaptations enhance their resilience across varied conditions: deep taproots provide drought tolerance by accessing subsurface water and nutrients, while basal rosette formation in many species facilitates overwintering in cold climates by protecting meristems close to the soil surface.^[15]^[16] Such traits contribute to their broad ecological niche, spanning ruderal waste grounds, aquatic margins as seen in Rumex hydrolapathum along riverbanks and pond edges, and alpine meadows exemplified by Rumex acetosella in high-elevation tundra.^[14]^[17]^[18]^[14]

Taxonomy

Classification and Etymology

The genus Rumex derives its name from the Latin word rumex, which referred to sorrel or dock plants, likely originating from the verb rumo meaning "to suck," in allusion to the ancient Roman practice of sucking the acidic leaves to quench thirst.^[6] This etymology reflects the characteristic tangy, oxalic acid-rich taste of many species in the genus. Carl Linnaeus first formally described Rumex in his seminal work Species Plantarum in 1753, establishing it as a distinct genus within the flowering plants based on morphological traits such as the presence of ocreae (stipule sheaths) and inflorescence structure.^[19] In modern taxonomy, Rumex is classified in the family Polygonaceae (the buckwheat or knotweed family), subfamily Polygonoideae, and is one of approximately 50 genera in this diverse group, which includes close relatives such as Rheum (rhubarb) and Oxyria.^[20] The genus is further placed in tribe Rumiceae, characterized by herbaceous habits and unisexual or bisexual flowers, distinguishing it from more woody lineages in the family.^[21] Internally, Rumex is divided into subgenera, including subgenus Rumex (featuring prominent ocreae) and subgenus Acetosa (lacking well-developed ocreae), a classification that aligns with traditional morphology and has been refined through molecular analyses.^[22] The taxonomic history of Rumex began with Linnaeus's binomial nomenclature, which grouped species based on leaf shape and fruit characteristics, but early classifications often merged it with related genera due to overlapping traits.^[20] Subsequent revisions in the 19th and 20th centuries, such as those by Rechinger in 1937, proposed subgeneric divisions, while contemporary studies incorporating molecular data—like nuclear and plastid phylogenies—have confirmed Rumex as monophyletic and closely related to the bistort subtribe (Bistortinae), resolving previous uncertainties in generic boundaries.^[20] As of 2022, Plants of the World Online recognizes approximately 193 accepted species in the genus, reflecting ongoing taxonomic refinements that account for hybridization and morphological variability.^[23] Phylogenetically, Rumex represents a derived lineage within Polygonaceae, emerging from a basal divergence in the family during the early Miocene around 22 million years ago, with adaptations toward fully herbaceous growth forms that facilitated its diversification in temperate and disturbed habitats.^[21] Molecular phylogenies reveal six major clades and a basal grade in the genus, underscoring its evolutionary shift from ancestral woody habits to the perennial or annual herbs typical today, while highlighting the role of reproductive system evolution in species radiation.^[20]

Species and Diversity

The genus Rumex comprises approximately 193 accepted species worldwide, with the highest diversity concentrated in the Mediterranean Basin and temperate regions of Eurasia.^[23]^[20] Many species are weedy or invasive outside their native ranges, particularly in North America and Australia.^[24] Notable species include R. acetosa (common sorrel), a widespread edible perennial native to temperate Eurasia and northwestern Africa, valued for its tangy leaves in culinary applications.^[25] R. crispus (curly dock), a cosmopolitan weed originating from Europe and western Asia, is characterized by its curled leaves and has become invasive in temperate regions globally.^[24] R. scutatus (French sorrel), a culinary herb native to southern and central Europe, features shield-shaped leaves and is cultivated for its mild flavor. R. obtusifolius (bitter dock), common in Eurasian grasslands and meadows, is a robust perennial with blunt-tipped leaves often found in disturbed habitats. R. hydrolapathum (water dock), an aquatic specialist adapted to wetland environments in Europe, exhibits elongated leaves and submerged growth forms. Diversity within Rumex shows high endemism in Europe and Asia, where many species are restricted to specific mountain or coastal habitats. Polyploidy is prevalent, frequently driving hybrid speciation and contributing to morphological variability across taxa.^[26] The genus is divided into subgenera, with approximately 150 species in subgenus Rumex (encompassing most docks) and about 50 in subgenus Acetosa (including sorrels), alongside smaller groups like Acetosella.^[21]^[6] Regarding conservation, while most Rumex species are not formally listed as endangered, some rare endemics, such as R. orthoneurus (Chiricahua dock) in North American mountains, are federally listed as endangered due to habitat loss and limited distributions.^[27] Additional critically endangered species include R. rothschildianus, restricted to two small populations in Israel.^[28] Some taxa, like R. crystallinus in Australia, are assessed as vulnerable.^[29] Other alpine taxa, such as R. alpinus, face emerging threats from climate change-induced warming and habitat shifts.^[30] Conversely, invasive species such as R. crispus are designated as noxious weeds in parts of North America, prompting management efforts to control their spread.^[24]

Ecology

Reproduction

Rumex species display diverse sexual systems, ranging from dioecious and monoecious to polygamous arrangements, with some exhibiting hermaphroditic or gynodioecious forms. Flowers are small, typically measuring 2–5 mm in diameter, and are primarily wind-pollinated, lacking nectar but producing abundant pollen.^[4] Each flower consists of six undifferentiated tepals in two whorls and six to nine stamens, with female flowers featuring a single pistil and three stigmas.^[31] Blooming generally occurs from late spring through summer, synchronized with favorable conditions for pollen dispersal in temperate regions.^[32] The reproductive life cycles of Rumex vary by species and ploidy level, encompassing annuals that complete flowering and seed set in a single season, biennials that flower in their second year after vegetative growth, and perennials that flower annually once established.^[2] Annuals and biennials invest heavily in a single reproductive event, while perennials can sustain multiple flowering episodes over years, supported by robust root systems. Seed production is prolific, enabling rapid population expansion; for instance, R. crispus can yield up to 40,000 seeds per plant under optimal conditions.^[33] Fruits develop as achenes enclosed within the persistent inner tepals (valves), which often bear tubercles or wing-like expansions that facilitate dispersal. These structures promote anemochory (wind dispersal) by increasing surface area or buoyancy, or epizoochory (animal dispersal) by adhering to fur or feathers; tubercles may also enable hydrochory (water dispersal) through flotation.^[4] Reproduction in Rumex is predominantly sexual, with apomixis being rare across the genus. Self-compatibility is widespread, particularly in hermaphroditic and monoecious taxa, allowing autogamy when pollinators or mates are scarce. Polyploidy, prevalent in many species (e.g., tetraploid and higher cytotypes), promotes reproductive isolation from diploid progenitors via gametic barriers and chromosome mismatches, stabilizing hybrid lineages while facilitating adaptive radiation.^[34]^[35]

Distribution and Interactions

The genus Rumex exhibits a cosmopolitan distribution, with the majority of its over 200 species native to the temperate regions of the Northern Hemisphere, spanning from Arctic tundra to subtropical zones, with the center of diversity in Eurasia where they thrive in diverse habitats including grasslands, wetlands, and disturbed areas. In North America and parts of Africa, native species are less abundant but occupy similar temperate ecological niches.^[5]^[36] Many Rumex species have been introduced to new regions through human activities such as agriculture, trade, and unintentional seed dispersal, leading to widespread naturalization and invasive tendencies. For instance, R. crispus (curly dock), native to Eurasia, has become globally distributed since the 19th century, establishing populations across the Americas, Australia, New Zealand, and parts of Africa, often in agricultural fields and roadsides. These introductions have facilitated range expansions, with species like R. obtusifolius and R. conglomeratus showing variable climatic niche shifts in non-native areas, sometimes conserving their original preferences in regions like Australia while expanding in others.^[12]^[37]^[38] Ecologically, Rumex species engage in various biotic interactions that influence their persistence and impact. They serve as hosts to numerous herbivores, including aphids such as Aphis rumicis (dock aphid), which feed on leaves and stems, and lepidopteran larvae from genera like Timandra and Lycaena, which consume foliage and roots. Fungal pathogens, notably the rust Uromyces rumicis, infect leaves and can cause significant damage, particularly to R. crispus and R. obtusifolius, potentially limiting population growth through reduced photosynthesis. Additionally, Rumex often occurs in association with nitrogen-fixing plants and soil microbes in nutrient-enriched environments, indirectly benefiting from enhanced soil fertility while competing as a weed in crops like grasslands and pastures.^[39]^[40]^[41]^[42]^[43] As indicators of nutrient-rich, often disturbed soils, Rumex species play roles in environmental dynamics, facilitating ecological succession in habitats like abandoned fields and riverbanks by stabilizing soil and providing early cover for other plants. However, they face threats from habitat fragmentation due to urbanization and agriculture, as well as competition from other invasives, which can alter community composition and reduce their abundance in native ranges. Recent studies as of 2025 suggest that rising temperatures may enhance germination rates in invasive Rumex species like R. alpinus and alter elevational range limits, potentially exacerbating their spread in changing climates.^[13]^[44]^[45]^[46] In introduced areas, their weed status exacerbates agricultural challenges, though natural enemies like rust fungi may help regulate populations.

Uses and Cultivation

Culinary and Nutritional Aspects

Several species of Rumex are valued for their edible leaves, particularly common sorrel (R. acetosa) and French sorrel (R. scutatus), which provide a tangy, lemon-like flavor due to their oxalic acid content.^[47] These leaves are commonly used in salads, soups, sauces, and as a pot herb, often added to egg dishes, fish preparations, or creamy recipes for acidity.^[48] Young leaves harvested in early spring are preferred for fresh consumption to minimize oxalic acid levels, while cooking further reduces this compound, making older leaves suitable for cooked applications like sorrel soup.^[49] The culinary use of Rumex species dates back to ancient Europe, where Romans incorporated sorrel into recipes as a tangy green, and it remained popular through the Middle Ages as a cultivated vegetable.^[50] In modern European cuisine, particularly French, it features prominently in dishes such as sorrel soup (soupe à l'oseille) and sauces for fish or poultry, valued for its bright, citrusy notes that enhance creamy or rich flavors.^[51] Nutritionally, raw R. acetosa leaves are low in calories at 22 kcal per 100 g, with 3.2 g carbohydrates, 2.9 g dietary fiber, 0.7 g fat, and 2 g protein, providing essential micronutrients including 48 mg vitamin C (53% of daily value) and 2.4 mg iron (13% of daily value).^[52] However, the high oxalic acid content can bind to calcium and may pose a risk for kidney stone formation in susceptible individuals if consumed in large amounts, so moderation is advised, especially for those with predispositions to oxalate-related issues.^[53] For culinary cultivation, R. acetosa is grown as a perennial herb in gardens, thriving in partial shade with moist, well-drained soil; plants are spaced about 30 cm apart to allow for clumping growth up to 60 cm wide.^[54] Multiple harvests are possible by cutting outer leaves regularly, promoting new growth, and varieties like 'Red Veined' sorrel add aesthetic appeal with their ruby-patterned foliage while maintaining the characteristic tart flavor.^[55]

Medicinal and Industrial Uses

Various species of Rumex have been employed in traditional medicine for treating skin irritations, with leaves often applied as a poultice to soothe conditions such as nettle stings, insect bites, and minor wounds due to their cooling and astringent effects.^[56] In European herbalism, roots of R. crispus (yellow dock) are used in decoctions or teas as mild laxatives to alleviate constipation and support digestion, while also exhibiting anti-inflammatory properties for conditions like arthritis.^[57]^[58] Similarly, in Ayurvedic traditions, species like R. hastatus are incorporated into remedies for gastrointestinal disorders, including indigestion and diarrhea, often as root extracts to promote bowel regularity.^[59] The therapeutic effects of Rumex are attributed to bioactive compounds such as anthraquinones, including emodin, which contribute to purgative and laxative actions by stimulating intestinal motility.^[56] Tannins present in the roots and leaves provide astringent qualities, aiding in wound healing and reducing inflammation through protein precipitation and tissue contraction.^[56] Modern preclinical studies have demonstrated antioxidant properties in extracts from species like R. crispus and R. vesicarius, with phenolic compounds scavenging free radicals in vitro, though clinical evidence remains limited and further human trials are needed.^[60]^[61] Industrially, roots of Rumex species, such as R. abyssinicus, are extracted to produce yellow-brown dyes suitable for coloring wool and other textiles, yielding shades from warm yellows to pinks depending on pH and mordants.^[62] Tannins from the roots and bark, particularly in R. hymenosepalus and R. abyssinicus, serve as vegetable tanning agents in leather processing, offering an eco-friendly alternative to chrome-based methods by binding to collagen fibers and enhancing leather durability.^[63] Certain species, like R. acetosa, function as bioindicators for heavy metal pollution, accumulating contaminants such as zinc, chromium, and lead in their tissues, which facilitates environmental monitoring in contaminated soils.^[64] Despite these applications, Rumex species contain high levels of oxalates, which can bind calcium and lead to hypocalcemia or kidney stone formation upon excessive consumption.^[57]^[56] Use is contraindicated in pregnant individuals due to potential uterine stimulant effects and in those with renal issues to avoid oxalate nephropathy.^[57]

Fossil Record

Fossil Evidence

The earliest known fossils of the genus Rumex date to the middle Miocene epoch, approximately 15-13 million years ago. In Denmark, several fossil fruits of Rumex sp. have been recovered from middle Miocene strata in the Fasterholt area near Silkeborg in Central Jutland, preserved in lacustrine deposits.^[65] These achenes provide evidence of the genus's presence in temperate wetland environments during this period. Similarly, a single fossil fruit attributable to Rumex sp., resembling the extant R. maritimus, was extracted from middle Miocene freshwater deposits in the Nowy Sącz Basin of the West Carpathians, Poland.^[65] Later fossil records include Pliocene occurrences in Germany, where pollen grains of Rumex sp. have been identified in late Pliocene to early Pleistocene sediments from southern regions such as Baden and the Oberbergisches Land, often in fluvial and lacustrine contexts.^[66] In the Quaternary period, particularly during the Holocene, Rumex pollen is abundant in lake sediments across Europe, reflecting post-glacial expansion of the genus into recolonized temperate habitats following the Last Glacial Maximum around 20,000 years ago.^[67] These records indicate Rumex species were part of early successional vegetation in disturbed, moist soils as forests retreated and grasslands spread.^[68] Fossils of Rumex are primarily preserved as carbonized or compressed achenes and fruits, with pollen grains occurring as isolated or aggregated forms in sedimentary matrices.^[65] Leaf remains, when present, are typically impressions rather than silicified structures, though such preservation is less common for this genus. Most discoveries come from lacustrine (lake) or fluvial (river) deposits, which facilitated the accumulation and fossilization of dispersed plant material in low-energy, anoxic conditions.^[66] Ages of Rumex fossils are determined through biostratigraphy, correlating plant assemblages with known marker species in Miocene and Pliocene strata to establish relative timelines. For Quaternary records, radiometric methods such as carbon-14 dating (¹⁴C) on associated organic sediments provide absolute ages, often confirming deposition during the late Pleistocene to Holocene transition in European lake cores.^[67] These approaches collectively affirm deposition in temperate paleoenvironments conducive to Rumex growth.^[65]

Evolutionary Insights

The evolutionary history of Rumex traces back to the diversification of the Polygonaceae family, with a stem age estimated at 110.9–118.7 million years ago during the Cretaceous period. The tribe Rumiceae, encompassing Rumex and its close relatives, diverged approximately 63.1–69.9 million years ago in the late Cretaceous to early Paleogene from woody ancestors within the subfamily Polygonoideae. The crown age of the genus Rumex (including the related genus Emex) is placed in the lower Miocene at around 22.13 million years ago, marking a transition to a predominantly herbaceous habit amid Miocene climatic cooling and the expansion of temperate ecosystems.^[69]^[70] Phylogenetic patterns derived from plastome and nuclear data, calibrated with fossil evidence, support an Eurasian origin for Rumex, with major radiations occurring during the Miocene as global cooling promoted the spread of open woodlands and grasslands suitable for herbaceous taxa. This timeline aligns with molecular clock estimates confirming the close phylogenetic ties of Rumex to other extant Rumiceae members, with intra-generic divergences spanning the past 22 million years and reflecting adaptations to varied temperate environments. Middle Miocene fruit fossils from Denmark and pollen records further corroborate this Eurasian-centered evolution, indicating early establishment in northern temperate zones.^[70]^[20]^[65] Fossil achenes from the middle Miocene exhibit tuberculate surfaces characteristic of extant species, evidencing the early evolution of these structures for enhanced dispersal via epizoochory (adhesion to animals) or hydrochory (water flotation), which facilitated Rumex's colonization of disturbed and riparian habitats.^[21]^[65] The fossil record of Rumex remains sparse prior to the Miocene, lacking definitive pre-Miocene genus-level evidence and underscoring uncertainties in the precise timing of its divergence from woody forebears. Current cladistic studies integrating fossil calibrations with plastid and nuclear genomic data are refining subgeneric phylogenies and addressing these gaps to better elucidate long-term evolutionary dynamics within the genus.^[70]^[20]

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[PDF] Sorrel Rumex acetosa, R. scutatus - Herb Society of America
Tips. • Select young leaves for fresh use in early spring. • Cooking reduces the level of oxalic acid in the leaves. • The leaves should be a bright green.
[46]
Sorrel: Origins, History, Description, Gastronomic Use ...
Jan 24, 2023 · However, sorrel was already known as an officinal plant in ancient times, so much so that the Egyptians and ancient Romans used it as a dressing ...
[47]
Ancient Charms of Sorrel Rediscovered - The New York Times
Jun 20, 1979 · The French have long favored sorrel in soups and sauces, and it is the main ingredient in the traditional Jewish soup known as schav, a blend ...
[48]
Sorrel Nutrition facts and Health benefits
Sorrel leaves carry very low calories(100 g of raw leaves provide just 22 calories). Its leaves hold a good amount of soluble dietary fiber.
[49]
Sorrel - Uses, Side Effects, and More - WebMD
Large amounts might increase the risk of developing kidney stones, or damage the liver or stomach. Pregnancy and breast-feeding: Sorrel is possibly safe when ...
[50]
How to grow Sorrel | RHS Herbs
Sorrel is easy to grow from seed or can be bought as young plants, and is happy in sun or light shade, in most types of soil.
[51]
Learn how to plant, grow, and harvest red veined sorrel
Dec 27, 2020 · Red veined sorrel seeds should be spaced about a half inch apart and covered lightly with potting mix. Keep the growing medium consistently ...What Is Red Veined Sorrel · Direct Sowing Seeds · Sowing Red Veined Sorrel...Missing: Rumex acetosa 30cm
[52]
https://www.nutrition-and-you.com/sorrel.html
[53]
Yellow Dock Uses, Benefits & Dosage - Drugs.com
Aug 18, 2025 · The roots of yellow dock exert a laxative effect; however, research reveals no clinical data regarding the use of yellow dock to treat any condition.
[54]
Evaluation of the Bioactivities of Rumex crispus L. Leaves and Root ...
Oct 30, 2019 · This research revealed Rumex crispus has potency against microorganisms, Trypanosoma, and Plasmodium and could be a potential source for the treatment of these ...
[55]
Pharmacological Basis of Rumex hastatus D. Don in Gastrointestinal ...
Roots of Rumex hastatus have great value in Ayurveda and other traditional medications for the management of various ailments like rheumatoid arthritis, ...
[56]
Variability of Phenolic Compound Accumulation and Antioxidant ...
Antioxidant Activity of the Rumex Extracts. Extracts from R. crispus demonstrated high antioxidant activity based on all three methods (Table 3). A high ...
[57]
Potential assessment of Rumex vesicarius L. as a source of natural ...
The present findings suggest that Rumex vesicarius L. can be used as natural antioxidant source to prevent damage associated with free radicals.
[58]
Optimization of natural dye extraction from the root of Rumex ...
In this study, Rumex abyssinicus (R. abyssinicus) roots were used for dye extraction via Soxhlet extraction. The effects of particle size, solid-to-liquid ...Missing: bioindicators | Show results with:bioindicators
[59]
Rumex abyssinicus (mekmeko): A newer alternative for leather ...
May 20, 2020 · As shown in Table 3, the tannin content of mekmeko extract was found to be 18.48% and non-tannins at 16.04%. The ratio of tannin to non-tannin ...
[60]
Plants as effective bioindicators for heavy metal pollution monitoring
Sep 1, 2024 · This study investigated the bioindicator potential of Amaranthus retroflexus L., Plantago lanceolata L., Rumex acetosa L., and Trifolium pratense L.
[61]
Rumex L., 1753 - GBIF
This fossil fruit is similar to the fruits of the extant species Rumex maritimus and Rumex ucranicus which both have fossil records from the Pliocene and ...
[62]
https://www.sciencedirect.com/science/article/pii/S221171562400273X
[63]
Postglacial migration supplements climate in determining plant ...
We show that although climate is the dominant broad-scale determinant of European plant species ranges, constrained dispersal plays an important supplementary ...
[64]
Postglacial migration supplements climate in determining plant ...
May 4, 2011 · We show that although climate is the dominant broad-scale determinant of European plant species ranges, constrained dispersal plays an important supplementary ...
[65]
Age Estimates for the Buckwheat Family Polygonaceae Based on ...
Apr 5, 2013 · Results from this study indicate that Polygonaceae likely diverged much earlier than previously thought (55.8–70.6 Myr ago) with estimated mean ...
[66]
A plastome phylogeny of Rumex (Polygonaceae) illuminates the ...
Mar 10, 2023 · Fossil calibration of the phylogeny suggested that the common ancestor for Rumex (including Emex) has origins in the lower Miocene (22.13 MYA).