Dock
Dock is a common name for several species of perennial flowering plants in the family Polygonaceae, primarily in the genus Rumex. These plants are characterized by their basal rosettes of leaves and tall flowering stems bearing clusters of small, greenish flowers that develop into fruits with papery wings. Docks are found worldwide in temperate and subtropical regions, often in disturbed habitats such as roadsides, fields, and wetlands. The genus Rumex includes around 200 species, divided into subgenera such as Rumex (docks) and Acetosa (sorrels). Common examples include curly dock (R. crispus), broad-leaved dock (R. obtusifolius), and patience dock (R. patientia). Many docks are considered weeds due to their invasive growth, but some species have culinary, medicinal, and historical uses. For instance, young leaves of certain docks are eaten as pot herbs or in salads, while roots have been used in traditional medicine as laxatives.[1] Docks play roles in ecology as pioneer species in succession and food sources for insects and livestock, though some can be toxic to animals if consumed in large quantities due to oxalates. Their etymology derives from Old English "docce," possibly related to the plant's ability to "dock" or heal wounds when rubbed on nettle stings.[2][3]Taxonomy
Genus Overview
The genus Rumex is classified within the family Polygonaceae, subfamily Polygonoideae, and tribe Rumiceae.[4] It was first described by Carl Linnaeus in the 1753 edition of Species Plantarum, where it was established as the type genus of the tribe Rumiceae.[5][4] Rumex is closely related to the genus Rheum (rhubarb), with both belonging to the tribe Rumiceae; the genus encompasses approximately 200 accepted species of annual, biennial, and perennial herbs.[6][7] A notable recent taxonomic revision occurred in 2015, when molecular phylogenetic analyses led to the demotion of the segregate genus Emex to subgenus Emex within Rumex.[8] The fossil record of Rumex extends to the Miocene epoch, with fruits of Rumex sp. documented from middle Miocene deposits in the Fasterholt area of Denmark and a fruit resembling R. maritimus from middle Miocene freshwater sediments in the Nowy Sącz Basin of Poland.Species Diversity
The genus Rumex comprises approximately 200 species of annual, biennial, and perennial herbs, primarily distributed across the temperate and subarctic regions of the Northern Hemisphere, with significant diversity in Europe and Asia, and additional representation in North America, Africa, and parts of South America.[9][10] The type species of the genus is Rumex patientia, known as patience dock, which is cultivated as a leafy vegetable and features lanceolate leaves and a robust perennial habit.[11] Among the most widespread and cosmopolitan species are Rumex crispus (curled dock or yellow dock), characterized by its distinctly curled or wavy leaf margins and fruit valves bearing prominent tubercles that aid in seed dispersal, and Rumex obtusifolius (broad-leaved dock or bitter dock), distinguished by its broad, obtuse-tipped leaves with cordate bases and often reddish petioles.[12][13] Regional endemics highlight the genus's adaptability to specialized environments, such as Rumex hymenosepalus (wild rhubarb), a perennial native to the arid deserts of the southwestern United States and northern Mexico, noted for its large basal leaves and inflorescences producing showy reddish seed clusters; Rumex arcticus (arctic dock), a low-growing perennial restricted to moist tundra and subarctic habitats in Alaska, northern Canada, and Eurasia, with slender stems and tangy leaves; and Rumex hydrolapathum (great water dock), a tall rhizomatous species confined to wetland fens and riverbanks in Europe, featuring elongated, strap-like leaves up to 60 cm long.[14][15][16] Other notable species include Rumex sanguineus (wood dock or red-veined dock), a Eurasian perennial with striking red venation on its ovate leaves, and Rumex fueginus (American dock), an annual or biennial found in southern South America, including Tierra del Fuego, with golden-brown mature fruit distinguishing it from coastal relatives.[17][18] Hybridization is documented within the genus, particularly among sympatric species, with Rumex crispus × R. obtusifolius (often denoted as R. × pratensis) being a common fertile hybrid exhibiting intermediate leaf shapes and enhanced vigor, as confirmed by morphological and molecular analyses.[19][20]Description
Morphological Characteristics
Dock plants in the genus Rumex are primarily erect perennial herbs, though some species exhibit annual or biennial habits, characterized by robust growth forms adapted to various environments.[21] They typically develop from deep, fleshy taproots that can be unbranched or highly branched depending on the species, such as the minimally branched taproot in R. crispus (curly dock) versus the more extensive branching in R. obtusifolius (broadleaf dock).[22] These taproots enable persistence and regeneration, often reaching depths that support the plant's erect stature.[23] Leaves are alternate and predominantly basal, forming a rosette in the vegetative stage, with shapes ranging from lanceolate to ovate or oblong.[23] Each leaf base features an ocrea, a membranous sheath typical of the Polygonaceae family, that encircles the stem and may persist or become deciduous.[22] Variations include the wavy, curled margins of R. crispus leaves, which are elongated and up to 30 cm long by 6 cm wide, contrasting with the broader, flatter, heart-shaped basal leaves of R. obtusifolius, often 30 cm long by 15 cm wide and featuring prominent red veins.[24][25] Leaves are generally hairless or slightly papillose, particularly on the undersides of veins.[22] Stems arise from the basal rosette, growing tall—typically 1 to 2 meters in height—and are often unbranched below the inflorescence or sparingly branched above the middle, with a reddish-brown hue and jointed appearance.[22] They support terminal inflorescences and are ridged, contributing to the plant's upright posture.[23] Flowers are small, greenish to reddish, and clustered in dense panicles or spikes that form elaborate terminal inflorescences.[21] Many species are dioecious, with separate male and female plants, while others are monoecious, and the blooms are wind-pollinated, lacking showy petals.[26] Individual flowers measure about 2-3 mm across, emerging in whorls along the branches.[22] Fruits consist of three-angled achenes, typically triangular and 2-3 mm long, enclosed by enlarged inner perianth valves that may be winged, tubercled, or toothed for aid in dispersal.[21] In R. crispus, the valves develop corky, papery wings, whereas those of R. obtusifolius are reddish-brown with spiny or toothed margins.[22] The growth form emphasizes a basal rosette that often overwinters, with flowering stems bolting in the second year for perennial species, allowing vegetative persistence before reproductive effort.[22] This rosette stage features large, clustered leaves that diminish in size up the stem during the reproductive phase.[23]Reproductive Biology
Dock plants in the genus Rumex exhibit diverse reproductive strategies that contribute to their persistence across various environments. The life cycle varies by species: annuals complete their entire development, from germination to seed production, within a single growing season, while biennials form a vegetative rosette in the first year and flower in the second, and perennials may flower in the second year or later, often persisting for multiple seasons through their robust taproots.[23][27] This flexibility allows adaptation to seasonal conditions, with perennials like Rumex crispus overwintering as rosettes before bolting to produce inflorescences.[28] Pollination in Rumex is primarily anemophilous, relying on wind to transfer pollen between small, inconspicuous flowers arranged in panicles; however, many species also feature self-fertile flowers that enable autogamy, enhancing reproductive assurance in sparse populations.[24][22] The sexual system is predominantly dioecious in many species, with distinct male and female plants, where the ratio of males to females can influence population genetics and expansion rates due to spatial separation and pollen limitation.[29][7] Seed production is prolific, with individual plants yielding hundreds to over 60,000 achenes per inflorescence; these single-seeded fruits often bear tubercles or wings that facilitate dispersal by wind, water, or animals.[30][22] Vegetative reproduction occurs occasionally in certain species through root fragments or short rhizomes, enabling new shoots to emerge from severed taproot pieces as small as a few centimeters, particularly in disturbed soils.[22][31] Germination typically requires cold stratification for many perennial species, where seeds exposed to low temperatures (around 4°C) for weeks break dormancy, promoting spring emergence; achenes remain viable in soil seed banks for up to several years, ensuring long-term recruitment opportunities.[32][33]Distribution and Habitat
Global Range
The genus Rumex, commonly known as dock, is native primarily to temperate and subtropical regions of Eurasia, with many species originating in Europe and western Asia, and some extending to North Africa.[34][35][36] Introduced ranges of dock species are extensive, with widespread establishment in North America, including R. crispus across the United States and Canada, as well as in Australia, New Zealand, and South America.[31][37][38] Certain species exhibit presence in arctic and subarctic latitudes, such as R. arcticus, which is native to northern regions including Alaska, much of Canada, and parts of Russia.[39][40] Desert-adapted species like R. hymenosepalus occur natively in the southwestern United States (Arizona, California, Colorado, New Mexico, Nevada, Utah, Wyoming, Texas, Oklahoma, and Montana) and northern Mexico (Baja California and Chihuahua).[41][14] Some dock species, including R. crispus and R. obtusifolius, have achieved cosmopolitan status, now distributed pantropically across six continents due to human-mediated dispersal through trade and agriculture.[7][31][36]Ecological Preferences
Dock plants (Rumex spp.) primarily inhabit disturbed soils, including roadsides, agricultural fields, waste areas, wetlands, and coastal zones such as sand dunes and shingle beaches, where they function as ruderal species well-suited to human-altered landscapes.[42][43][44] They thrive in open or semi-open environments like pastures and meadows, often invading riparian zones such as riverbanks and irrigation ditches, but avoid highly stable, undisturbed communities.[30][45] These plants prefer nitrogen-rich, moist to wet soils that are tolerant of poor drainage and compaction, with a pH range from neutral to mildly acidic, though some species adapt to alkaline conditions.[45][30][46] They occur across a broad spectrum of soil textures, including clay, loam, gravel, and sand, but generally avoid very acidic or peaty substrates.[42][44] In traditional farming, the presence of dock leaves has long served as an indicator of high soil fertility, particularly excess nitrogen levels, signaling nutrient imbalances that favor their growth.[45][43] Rumex species are adapted to temperate and cool climates, with many exhibiting frost tolerance as overwintering perennials; certain taxa extend into arid deserts, arctic tundra, and high-altitude zones.[45][42][30] They demonstrate resilience to drought through deep taproots that access subsurface water, enabling survival in varied moisture regimes from waterlogged floodplains to dry disturbed sites.[45][46] Altitudinal distribution spans from sea level to elevations exceeding 3,000 meters, as seen in species like Rumex alpinus, which occupies nutrient-rich, moist alpine pastures and stream banks in mountain ranges such as the Alps and Tatra Mountains up to 1,500 meters or higher.[42][47]Ecology
Biological Interactions
Dock plants in the genus Rumex are primarily wind-pollinated, with anemophilous flowers that produce abundant lightweight pollen, though bees and other insects occasionally visit the inflorescences for nectar, contributing to limited entomophilous pollination despite the plants' high self-fertility.[22] Seeds are dispersed through multiple vectors, including wind via papery wings on the perianth, water along streams and floodplains, and animals such as birds that consume them or mammals whose fur they cling to, with viability persisting in soil seed banks for up to 80 years to facilitate long-distance spread.[22][48] Herbivory on Rumex species is common, with leaves grazed by generalist herbivores like deer, which preferentially consume young foliage, while livestock such as cattle, horses, and most sheep typically avoid mature plants due to high oxalate content that can cause toxicity; however, certain sheep breeds tolerate oxalates and graze young docks without significant harm.[22] Insect pests include aphids (Aphis rumicis) that feed on sap, potentially vectoring viruses, and leaf miners such as the fly Pegomya nigritarsis or Agromyza spp., whose larvae create blotch mines in leaves, reducing photosynthetic area and plant vigor.[49] Specialized herbivores like the chrysomelid beetle Gastrophysa viridula defoliate leaves, exerting selective pressure that influences competition among Rumex species.[36] Some Rumex species form arbuscular mycorrhizal associations with fungi such as Glomus spp., enhancing phosphorus and nutrient uptake in nutrient-poor soils, though associations are often sparse or absent in others due to the plants' efficient taproot systems for direct soil exploration. Allelopathic effects arise from phenolic compounds and aqueous extracts in leaves and roots, which inhibit seed germination and seedling growth of neighboring plants like clovers (Trifolium spp.), sunflowers (Helianthus spp.), and grasses, giving Rumex a competitive edge in mixed communities.[22][50] In food webs, Rumex serves as a nectar source for pollinating bees, supports granivorous birds through seed provision, and acts as a primary host for the rust fungus Uromyces rumicis, whose urediniospores and teliospores infect leaves, causing chlorosis and reduced biomass while potentially limiting dock populations in natural settings.[22][51] These interactions position Rumex as both a resource and a regulator within ecosystems. Through rapid vegetative growth and allelopathic suppression, Rumex outcompetes grasses and forbs in disturbed, nutrient-enriched soils, rapidly colonizing bare patches while suppressing species like white clover (Trifolium repens) and lucerne (Medicago sativa), thereby altering community structure in grasslands and pastures.[22][36]Invasive Potential and Management
Certain species within the genus Rumex, particularly R. crispus (curly dock) and R. obtusifolius (broad-leaved dock), are classified as invasive in regions including North America, Australia, and New Zealand, where they form dense stands that reduce native biodiversity by outcompeting local vegetation.[52][36][31] These plants establish persistent populations in disturbed habitats such as pastures, roadsides, and wetlands, displacing desirable species and altering community composition.[53] The spread of these invasive docks primarily occurs through prolific seeding, with individual R. crispus plants capable of producing up to 60,000 seeds annually, which are dispersed by wind, water, mud, animals, and human activities like equipment movement.[53][31] Vegetative propagation via root and crown fragments further facilitates invasion, as these segments can regenerate new plants when disturbed during soil tillage or transport.[53][36] Invasive docks exert significant ecological and agricultural impacts, including competition with crops and livestock forage that reduces yields and grazing capacity, particularly in pastures and orchards.[53][36] They also serve as alternate hosts for crop pests and pathogens, such as nematodes, viruses, and fungi that affect nearby agricultural fields.[30][31] Additionally, their deep taproots (up to 3 meters) alter soil nitrogen dynamics by preferentially thriving in nutrient-rich conditions and potentially depleting available nitrogen and moisture for other plants.[53][31] Management of invasive R. crispus and R. obtusifolius employs integrated approaches, including mechanical methods such as mowing before seed set to prevent dispersal and deep tillage to disrupt root systems.[53][54] Chemical control involves herbicides like glyphosate (2.25-3.75 lb ae/A) applied during early heading or 2,4-D (1-1.5 lb ae/A) and dicamba for broadleaf weed suppression in non-crop areas, often requiring repeated applications for perennial control.[54] Biological strategies include intensive grazing by livestock like goats to suppress growth and potential use of rust fungi such as Uromyces rumicis, which reduce plant biomass and seed production, though not yet widely implemented as a classical biocontrol agent. Emerging research as of 2025 explores the fungal pathogen Teratoramularia rumicicola as a bioherbicide, which significantly reduces Rumex biomass while being safe for common forage crops.[55][56][57] Prevention focuses on using clean seed free of dock contaminants to avoid introductions in agricultural settings.[53][31] In North America, R. crispus is listed as a noxious weed in several U.S. states, including California (restricted noxious under Section 4500, CCR), Colorado, Iowa, Michigan, Montana, and others, with seed limits enforced in agricultural mixtures.[58] In Canada, Rumex spp., including R. crispus, are designated as secondary noxious weeds (Class 3) under the Weed Seeds Order, 2016, prohibiting their presence in certain seed lots.[59] Similar restrictions apply in parts of Australia and New Zealand, though R. crispus is not nationally declared in Australia.[53]Uses
Culinary Applications
Dock plants, particularly species in the genus Rumex, have been utilized in various cuisines for their edible parts, which include young leaves, stems (petioles), and seeds. The leaves possess a tart, lemony flavor attributed to oxalic acid, similar to sorrel, making them a versatile ingredient when harvested young. Stems can serve as a substitute for rhubarb in cooked dishes, while seeds, though labor-intensive to process, can be ground into flour.[60] Preparation methods typically involve blanching or boiling to reduce oxalic acid content and bitterness, rendering the leaves suitable for incorporation into soups, salads, stir-fries, stews, and egg dishes. Young leaves may be eaten raw in salads after removing the central vein to minimize mucilage, or cooked and combined with ingredients like cream cheese or onions for added richness. In pie fillings, dock leaves are often mixed with other greens or fruits to balance their acidity, as seen in traditional European recipes where Rumex patientia (patience dock) acts as a spinach alternative. Seeds require winnowing, roasting, and grinding to produce a nutritious flour used in breads or porridges.[60][61][62] Culturally, dock features prominently in European cuisines, where Rumex patientia has been cultivated since ancient times and used in spring soups or as a potherb in regions like southern Europe. In French culinary traditions, sorrel (Rumex acetosa), a close relative, stars in classic soups enriched with cream and egg yolks, highlighting the plant's tangy profile. Native American communities, particularly the Navajo, have employed Rumex hymenosepalus (canaigre) by roasting or boiling its leaves with butter or frying them with mutton fat, while grinding the seeds into flour for staple foods. Harvesting is optimal in early spring when leaves are tender and before flower stalks emerge, as mature plants become tough and more acidic.[60][63][64][65] Due to the presence of oxalates, dock should be consumed in moderation, with cooking recommended to lower levels; individuals prone to kidney stones are advised to avoid it. Overconsumption can lead to digestive discomfort, but proper preparation ensures safe enjoyment as a seasonal green.[60]Medicinal and Traditional Uses
In traditional European folklore, particularly in the United Kingdom, crushed leaves of dock species such as Rumex obtusifolius and Rumex crispus have been applied as a poultice to soothe nettle stings, attributed to the plant's cooling and mildly alkaline properties that counteract the irritant formic acid.[66] The roots of R. crispus, known as curly dock or yellow dock, have been used as a mild laxative due to their content of anthraquinone glycosides, which stimulate bowel movements.[67] Specific dock species feature prominently in regional medicinal practices. Rumex alpinus, or alpine dock, has been employed in European herbal traditions to regulate digestion, acting as both an astringent and laxative to address issues like constipation and irregular bowel function. In Ayurvedic medicine, Rumex nepalensis, native to the Himalayan region, is utilized for treating skin conditions such as inflammation, wounds, and syphilitic ulcers, with studies confirming its anti-inflammatory effects through inhibition of prostaglandin production.[68][69] Beyond direct medicinal applications, dock plants serve various practical purposes. The roots of Rumex hymenosepalus, or canaigre dock, are rich in tannins and have been traditionally used for tanning leather, providing a natural astringent for processing hides.[70] The same roots yield natural dyes, producing shades of reddish-brown, yellow, green, and gray when applied to fibers, as utilized by Indigenous groups like the Navajo.[71] Fibers extracted from the leaves of various Rumex species have been employed in traditional cordage-making for ropes and bindings in survival and crafting contexts.[61] Modern research highlights the antioxidant and antimicrobial potential of dock extracts, particularly from R. crispus, where phenolic compounds demonstrate free radical scavenging and inhibition of bacterial growth in vitro.[72] However, clinical evidence supporting these effects in humans remains limited, with no large-scale trials confirming efficacy for therapeutic use.[67] Culturally, Rumex patientia, known as patience dock or monk's rhubarb, was cultivated in medieval European monastic gardens as an early-season green, valued for sustaining Lenten fasting periods when other vegetables were scarce.[73]History and Etymology
Historical Cultivation and Records
Dock plants of the genus Rumex, particularly species like R. patientia (patience dock), have a long history of human interaction evidenced by archaeological pollen records from Neolithic sites across Europe. Pollen grains of Rumex acetosella (sheep sorrel) and related species have been identified in Early Neolithic lugged jars from Denmark, suggesting early utilization or presence near settlements around 4000–3000 BCE.[74] Similar findings from pollen analyses at sites like Lanton Quarry in Northumberland indicate Rumex acetosa/acetosella associated with pastoral activities during the Neolithic transition to farming, implying incidental or deliberate harvesting for food or other uses.[75] These records, combined with macroremains from wetland settlements in Lithuania, point to Rumex species as part of the early agro-pastoral landscape, though not as primary crops.[76] The evolutionary lineage of Rumex traces back to the Miocene epoch, with fossil fruits and pollen documented from middle Miocene strata in Denmark's Fasterholt area (approximately 15–10 million years ago) and calibrated phylogenetic estimates placing the genus's common ancestor (including subgenus Emex) in the lower Miocene around 22.13 million years ago.[77] By Roman times, cultivation of R. patientia as a pot herb was well-established, referenced as "lapathon" by Dioscorides in his De Materia Medica (1st century CE) and "garden lapathum" by Pliny the Elder in Natural History (77 CE), highlighting its use in gardens for its mild, tangy leaves suitable for soups and greens.[62] In medieval Europe, Rumex species appeared in herbals, with Hildegard von Bingen recommending black and white dock varieties in her Physica (12th century) for treating mental stupor and skin ailments, underscoring their role in monastic medicine.[78] European Rumex species spread globally through trade and colonization, with introductions to the Americas occurring alongside 17th-century settlers as naturalized aliens, often via contaminated agricultural seeds or intentional planting for food and fodder.[27] In Europe, docks served as a supplementary fodder crop for livestock, with leaves fed to cattle and sheep in grasslands, as noted in historical agricultural practices from the medieval period onward.[43] During crises like the Irish Potato Famine (1845–1852), wild harvesting of curly dock (R. crispus) leaves provided a vital, albeit nutrient-limited, supplement to diets, incorporated into soups alongside other foraged greens amid widespread crop failure.[79] By the 19th and 20th centuries, commercial cultivation of patience dock and similar species declined sharply in Europe and North America, supplanted by imported or selectively bred greens like spinach that offered higher yields and milder flavors under intensive farming.[62] Despite this, Rumex persisted as a persistent weed in arable fields and pastures, valued sporadically for wild harvesting but increasingly managed as a competitor to crops due to its deep roots and prolific seeding.[52]Linguistic Origins and Regional Names
The English term "dock" for plants in the genus Rumex originates from the Old English word docce, used to denote coarse, weedy herbs of this type, and is related to similar terms in Middle Dutch (docke) and Old Norse (dokka), suggesting a shared Proto-Germanic root dokkō meaning a coarse or thick plant, possibly alluding to the robust leaves or stems.[80] The genus name Rumex derives from the classical Latin term for sorrel, stemming from the verb rumō ("to suck"), which refers to the ancient Roman custom of sucking the sour leaves to quench thirst during meals.[27] In British English, common names such as "dock" or "dock leaf" typically refer to Rumex obtusifolius (broad-leaved dock) and Rumex crispus (curled dock), with "dock leaf" emphasizing the large basal leaves often used in folklore to soothe nettle stings—a remedy documented in Old English texts and persisting in rural traditions.[81][82] In American English, R. crispus is more commonly known as "yellow dock" due to the yellowish rust-colored roots or seed stalks, or simply "curly dock" for its wavy leaf margins, where the plant is primarily regarded as an invasive weed rather than a folk remedy.[12] Regional variations in the United States and Canada include "bitter dock" for R. obtusifolius, reflecting its astringent taste, and "patience weed" or "monk's rhubarb" for Rumex patientia, evoking historical patience in cultivation or culinary substitution for rhubarb; in Canadian French-speaking areas like Quebec, R. patientia is called "patience des moines," highlighting monastic herbal uses in bilingual contexts.[83] Names in other languages often reflect the plant's tart flavor or practical uses, such as French "oseille" (from oxalis, meaning sorrel) for acidic species like Rumex acetosa, underscoring their role in soups and salads, while "monk's rhubarb" appears in English translations of European terms like German Mönchsrhabarber for R. alpinus, indicating historical monastic adoption as a rhubarb substitute in cooking.[84][85]Nutrition
Nutritional Profile
The nutritional profile of dock, particularly the leaves of Rumex crispus (curly dock), is characterized by low caloric density and high moisture content, making it a lightweight green suitable for dietary inclusion. Raw leaves contain approximately 19-25 kcal per 100 g, with water comprising 85-93% of their composition. Protein levels are modest at around 1.5-2.6 g per 100 g fresh weight, while dietary fiber contributes 0.9-3 g per 100 g, supporting digestive health through its insoluble components. These values position dock leaves as a low-energy food with potential for bulk in meals, though exact figures vary by growth stage and environmental factors.[86][87][88] Micronutrients in dock leaves are notable for their vitamin and mineral richness, particularly in species like R. crispus. Vitamin A, primarily as beta-carotene, reaches about 1.2-1.4 mg per 100 g fresh weight (approximately 2000-2300 IU), contributing to vision and immune function. Vitamin C content is approximately 30-50 mg per 100 g, an antioxidant level that aids collagen synthesis. Key minerals include iron at 2.8-5.6 mg per 100 g, essential for oxygen transport; potassium at 500-560 mg per 100 g, supporting electrolyte balance; and other elements like calcium (up to 74 mg per 100 g) and phosphorus (56 mg per 100 g). These concentrations make dock a valuable source of bioavailable nutrients in wild greens, though absorption can be influenced by preparation methods. Cooking can enhance mineral bioavailability by reducing oxalates.[86][88][89]| Nutrient | Amount per 100 g Raw Leaves (R. crispus) | % Daily Value (approx., based on 2000 kcal diet, RAE for Vit A) |
|---|---|---|
| Calories | 19-25 kcal | 1% |
| Water | 85-93 g | N/A |
| Protein | 1.5-2.6 g | 3-5% |
| Fiber | 0.9-3 g | 3-11% |
| Vitamin A (beta-carotene) | 1.2-1.4 mg (~2000 IU) | 11-13% |
| Vitamin C | 30-50 mg | 33-56% |
| Iron | 2.8-5.6 mg | 16-31% |
| Potassium | 500-560 mg | 11-12% |