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Celery

Celery (Apium graveolens) is a in the family , native to the marshy lowlands of the Mediterranean region, with a natural extending from southward to , , and eastward to the mountains of . Cultivated primarily for its crisp, fibrous stalks, celery is grown as an annual cool-season crop worldwide, reaching heights of up to 2-3 feet with compound leaves and small white flowers arranged in umbels. The plant's edible parts include the stalks, leaves, seeds, and in some varieties, the enlarged root known as , and it has been valued since ancient , , and times for both flavoring foods and medicinal applications, such as treating digestive issues. In modern agriculture, celery is produced on a large scale in temperate climates, with major growing regions including in the United States, which accounts for nearly all domestic production, and parts of and . The crop requires well-drained, fertile soils and consistent moisture, thriving in temperatures between 60-70°F (15-21°C), and is typically harvested 90-120 days after planting when stalks are 10-12 inches tall. Varieties are selected for traits like disease resistance, stalk tenderness, and reduced stringiness, with common cultivars including self-blanching types that do not require earthing up to protect from sunlight. Nutritionally, raw celery is low in calories and rich in water (about 95%), providing dietary fiber, vitamins, and minerals essential for health. Per 110 grams (two medium stalks), it contains approximately 18 calories, 3 grams of carbohydrates (including 2 grams of fiber), 1 gram of protein, 0.2 grams of fat, and notable amounts of vitamin K (27% DV), vitamin C (4% DV), potassium (286 mg), and folate (10% DV). These nutrients contribute to benefits like supporting bone health, immune function, and hydration, though celery's high water content and low caloric density make it a popular choice for weight management. Culinary applications of celery span raw and cooked preparations, often as a base flavoring in dishes due to its aromatic, slightly bitter taste from compounds like and . It is a key ingredient in , the combination of diced celery, carrots, and onions used in soups, stews, and sauces, and features prominently in dishes like stuffing and Bloody Mary cocktails, as well as Asian stir-fries and salads. Celery seeds are ground as a spice for seasoning meats, pickles, and breads, while the plant's versatility extends to juicing and snacking with dips for its crunch. Beyond cuisine, celery has traditional medicinal uses for its and properties, supported by bioactive compounds, though it can cause allergic reactions in some individuals sensitive to the family.

Botanical description

Physical characteristics

Celery (Apium graveolens) is a in the family, typically growing to a height of 0.3–1 meter with erect or ascending stems that are coarsely grooved and aromatic. The plant features pinnate to pinnatifid leaves that are green, lobed, and aromatic, with basal leaves oblong to obovate and upper leaves more triangular in shape. It produces small white to greenish-white flowers arranged in compound umbels, each umbel measuring 1–4 cm across with 3–16 rays supporting 7–25 tiny florets. The fruits are schizocarps that split into two mericarps, each containing a small, ovoid, ribbed seed that turns dark brown to black when mature. The encompasses several cultivated varieties distinguished by their and emphasized parts. Stalk celery (A. graveolens var. dulce) is characterized by thick, fleshy, ribbed petioles that cluster into a central bunch, reaching up to 75 cm in height with firm, pale green stalks suitable for raw consumption. Leaf (A. graveolens var. secalinum), also known as smallage, has thinner stalks and develops abundant, aromatic leafy tops that are primarily harvested for flavoring and garnishing. (A. graveolens var. rapaceum) features an enlarged, bulbous or root-stem that grows above the surface, forming a knobby, celery-flavored up to 10–12 cm in diameter, while the aerial parts remain leafy but less emphasized. In contrast to cultivated forms, wild celery (A. graveolens) exhibits thinner, more hollow stalks with a stronger, more bitter flavor, and it prefers marshy or wet habitats such as coastal grasslands and ditches. These wild plants grow to 0.6–0.9 m tall with light green, ribbed stems 30–90 cm long and finely divided leaves. The blanching process, often applied to stalk celery varieties during growth, involves covering the developing petioles with mounds, collars, or wraps to exclude , resulting in pale, tender inner stalks with reduced bitterness and improved for culinary use. This technique yields white-greenish petioles that are crisp and less fibrous compared to unblanched, darker green ones.

Chemical composition

Celery consists primarily of , accounting for approximately 95.4 g per 100 g of raw material, with carbohydrates comprising about g per 100 g, proteins around 0.7 g per 100 g, and fats at a low level of 0.2 g per 100 g. Key compounds responsible for celery's characteristic aroma and flavor are phthalides, such as sedanolide and 3-n-butylphthalide, which contribute to its distinctive celery-like scent and are present in concentrations that influence sensory qualities in leaves and stalks. Polyacetylenes, including falcarinol and falcarindiol, are found in celery roots and exhibit potential and cytotoxic properties, with falcarinol demonstrating notable toxicity against cell lines. such as and , along with acids like , , and , are prominent in celery and contribute to its activity by scavenging free radicals and reducing . The seeds of celery contain volatile oils up to 3%, primarily composed of and sedanolide, which enhance the plant's overall aromatic profile.

Origins and classification

Etymology

The word "celery" originates from the σέλινον (selinon), referring to marsh-dwelling plants resembling , as mentioned in Homer's around the 8th century BCE. This term denoted wild, umbelliferous herbs and passed into as selinon, which the Romans used for similar aromatic plants in medicinal and culinary contexts. From , the word evolved through , appearing in the 16th century as Italian seleri (singular selero in the dialect) and céleri, both denoting cultivated varieties of the . This linguistic path reflects the Mediterranean spread of celery cultivation, with cognates in other European languages such as sellerie (from the same Italian-French root) and Spanish apio, the latter derived directly from Latin apium, an alternative ancient term for celery or parsley-like herbs. In English, "celery" first entered the lexicon in 1664, recorded as "sellery" by diarist John Evelyn, signifying the transition from its primary medicinal role to a recognized vegetable. Prior to this, the wild form was known as "smallage," from Middle English smalache—a compound of "small" and ache (pronounced "ash"), an Old French borrowing from Latin apium for wild celery. The adoption of "celery" displaced these earlier terms, aligning English nomenclature with continental European usage as cultivation intensified.

Taxonomy

Celery, scientifically known as Apium graveolens L., is classified within the kingdom Plantae, order Apiales, family Apiaceae, genus Apium, and species A. graveolens. The species encompasses three main cultivar groups, distinguished primarily by their cultivated forms: the Dulce Group, which produces the familiar stalk celery with thickened petioles; the Rapaceum Group, comprising celeriac characterized by an enlarged hypocotyl; and the Secalinum Group, featuring leaf celery with slender stems and prominent foliage. As a member of the family, celery shares botanical relationships with other economically important species, including (Petroselinum crispum (Mill.) Fuss.), carrots ( L. subsp. sativus (Hoffm.) Arcang.), and (Foeniculum vulgare Mill.), all of which exhibit similar umbelliferous inflorescences and aromatic compounds. The wild progenitor of cultivated celery is Apium graveolens subsp. graveolens (L.) Thell., native to Mediterranean wetlands and marshy habitats across , , and western , where it grows as a or in damp, saline soils. Genetic studies reveal relatively low diversity within A. graveolens, with wild populations showing signs of erosion due to habitat loss and introgression from cultivated forms, though hybridization with related species has been explored for disease-resistant varieties. Recent genomic studies, including chromosome-level assemblies and population analyses published in 2024 and 2025, have revealed the domestication history and further genetic insights for celery improvement.

History

Ancient and medicinal origins

Wild celery (Apium graveolens), the ancestor of modern cultivated varieties, originated in the coastal salt marshes of the , where its wild forms thrived in wet, saline environments. In ancient Egypt, this wild plant held significant ritual importance, with celery leaves and inflorescences incorporated into funerary garlands discovered in the tomb of , dating to approximately 1323 BCE, likely used in practices and ceremonies. By the 5th century BCE in , celery—known as selinon—was employed both symbolically and medicinally. , the foundational figure in Western medicine, documented its use to calm the nerves and promote overall soothing effects, aligning with humoral theories that viewed it as a refrigerant agent to balance bodily temperatures. Symbolically, wild celery wreaths crowned victors at the , one of the Panhellenic competitions, representing triumph; however, it also carried chthonian connotations associated with the , mythically said to have sprouted from the blood of Kadmilos, a linked to and . The Romans further integrated celery into their pharmacopeia during the , as detailed by the physician Dioscorides in his seminal work . He described the plant's seeds and roots as potent s, effective for urinary issues, and noted their applications for conditions like eye inflammations and pains when applied topically. Early medicinal traditions across these civilizations utilized celery for treating and through liniments and infusions that leveraged its properties to alleviate swelling and pain, as well as for digestive complaints such as and . By the , celery's medicinal knowledge spread eastward via ancient trade routes, reaching by at least the , where it was valued in traditional remedies, and appearing in herbal practices through similar exchanges.

Development of cultivation

The cultivation of celery (Apium graveolens var. dulce) emerged from its wild ancestor, smallage (Apium graveolens var. secalinum), which was primarily valued for medicinal purposes in ancient times. In during the , milder domesticated varieties of smallage began to be developed, marking the shift toward culinary use with the production of larger, less bitter stalks suitable for soups and flavoring. These early cultivars retained some bitterness but represented the first intentional efforts to improve , initially focusing on medicinal broths rather than the plant as a primary . By the early , cultivation advanced in , where agronomist Olivier de Serres documented the growing of celery varieties with blanched stalks in his 1623 treatise Théâtre d'Agriculture. De Serres advocated earthing up plants to exclude light from the stalks, a that produced , white petioles prized for their mild flavor and , transitioning celery from a mere to a . This blanching method, combined with for sweeter varieties, laid the foundation for celery's expansion as a cultivated across . Celery reached in the early , introduced through herbalists and gardeners who adapted French techniques to local conditions, growing it in kitchen gardens for both medicinal and emerging culinary applications. By the (1837–1901), celery had ascended to among the British , often served blanched and presented in ornate cut-glass vases at dinner tables to signify wealth and refinement. Its labor-intensive cultivation—requiring trenching and blanching—made it expensive, with prices reaching around 33 shillings per bunch (equivalent to roughly £180 today), reinforcing its role as a luxury vegetable in elaborate meals. The plant's introduction to the Americas occurred in the late via settlers in , who began large-scale cultivation around Kalamazoo in 1874, leveraging the region's marshy muck soils ideal for celery. These immigrants developed the '' variety, known for its self-blanching, yellowish stalks that required less manual labor and offered a crisp texture, which became a staple in early American production. Commercial expansion accelerated in during the 1920s, particularly in the and , where drained lands enabled year-round growing and mechanized harvesting, propelling celery into a major export crop. In the , breeding focused on disease resistance and ease of , leading to self-blanching varieties like 'Ventura', introduced in the mid-century for its compact habit and naturally pale stalks that minimized blanching needs. Simultaneously, the 'Pascal' type gained dominance in by the 1930s, prized for its tall, crisp green stalks that resisted stringiness and bitterness without extensive processing, shaping modern commercial standards.

Cultivation and production

Growing conditions

Celery cultivation requires cool temperate climates with optimal daytime temperatures ranging from 15–21°C (59–70°F), as the crop is frost-sensitive and prolonged exposure to temperatures below 5°C (41°F) or highs exceeding 27°C (81°F) can induce bolting or reduce stalk quality. It performs best in full sun to partial shade, with consistent to support growth in environments that maintain relatively high levels around the plants. The plant demands fertile, loamy soils that are well-drained yet retain adequate moisture, ideally with high content to prevent waterlogging while ensuring steady hydration. Optimal ranges from 6.0 to 7.0, though muck soils can tolerate slightly lower levels down to 5.5 if amended with to maintain fertility. Sandy or mineral soils work with careful management, but heavy clay should be avoided to facilitate and uptake. Seeds are typically sown indoors 10–12 weeks before the last expected , with transplants set out after 60–70 days when seedlings have 3–4 true leaves and temperatures exceed 10°C (50°F). In-row spacing of 15–30 cm (6–12 inches) between and 30–40 cm (12–16 inches) between rows allows for adequate air circulation and growth, often using raised beds for better drainage in commercial settings. Direct seeding is challenging due to small and poor in cool soils, making transplants the preferred method. Fertilization is nitrogen-intensive, with total applications of 100–150 kg/ (90–135 /) to support vigorous and stalk development, applied half pre-plant and the remainder as sidedressings starting 3–4 weeks after . at 100–150 kg/ (90–135 /) enhances stalk crispness and resistance, while levels of 75–125 kg/ (65–110 /) suffice based on tests. provides 25–50 mm (1–2 inches) per week, with drip systems preferred to maintain even without nutrients, peaking during the final growth stages before harvest. For white celery varieties, blanching is essential to produce tender, pale stalks by excluding light, achieved through earthing up soil around plants or using sleeves, though this increases labor. Self-blanching cultivars, such as Golden Self-Blanching, naturally curl their outer leaves to shade inner stalks, reducing the need for manual intervention and simplifying cultivation.

Global production

Global production of celery, including celeriac varieties, totaled approximately 1.8 million metric tons in 2023. This output reflects steady growth in cultivation, supported by increasing global demand for vegetables with perceived health benefits. China dominates as the top producer, holding about 60% of the global share with roughly 700,000 tons annually (early estimates). The contributes 644,000 metric tons (2023), concentrated mainly in where favorable climates enable year-round harvesting, with production rising to 677,000 metric tons in 2024. In , and stand out for their export-oriented production, supplying significant volumes to international markets. The U.S. celery market holds an economic value of $357 million in 2024, driven by both fresh consumption and rising interest in value-added products. Demand for celery and processed forms, such as serving as a natural source in cured meats, continues to grow amid regulatory shifts away from synthetic additives. Notable industry trends include the 2019 celery fad, which spiked U.S. prices by 20–30% due to heightened consumer interest in its purported detoxifying properties. More recently, climate variability has impacted yields in Mediterranean production areas like and , with droughts and erratic weather patterns reducing output in affected regions.

Pests and diseases

Celery crops face significant threats from a range of insect pests, fungal diseases, bacterial infections, and pathogens, which can reduce vigor, stunt , and lead to substantial economic losses if not managed effectively. Among the key insect pests, such as Cavariella aegopodii colonize leaves and stems, causing yellowing, distorted , and sticky that promotes ; they also serve as vectors for viruses like celery mosaic virus. Armyworms (Pseudaletia unipuncta) feed voraciously on foliage, creating holes and skeletonizing leaves, particularly in warmer climates where multiple generations can occur. The carrot rust fly (Psila rosae) lays eggs near the surface, with larvae tunneling into roots to form maggots that cause rotting and . Root-knot nematodes (Meloidogyne spp.) induce on roots up to 3 cm in size, leading to nutrient uptake issues, yellowing, and under stress. Fungal diseases pose another major risk, with Fusarium yellows caused by Fusarium oxysporum f. sp. apii resulting in vascular wilt, yellowing of lower leaves, stunted growth, and eventual plant death due to blocked water flow in the vascular system. Anthracnose, primarily from Cercospora apii, manifests as yellow flecks that develop into brown-gray spots on leaves, causing curling and necrotic lesions on stalks that reduce marketability. Damping-off, triggered by soilborne fungi like Pythium spp. and Rhizoctonia solani, leads to seed rot and collapse of seedlings through water-soaked lesions in overly moist conditions. Bacterial and viral issues further complicate production; bacterial blight (Pseudomonas cichorii) produces water-soaked spots on leaves that turn necrotic, affecting petioles and leading to wilting during wet periods. Celery mosaic virus (CeMV), transmitted by aphids, causes vein clearing, mottled leaves, upward curling, , and stunting, with early infections rendering plants unmarketable and resulting in yield losses up to 50% in affected fields. Effective management of these threats relies on (IPM) approaches that combine cultural, biological, and chemical strategies to minimize impacts while promoting sustainable production. Crop rotation with non-host plants, such as grasses or , for 2–3 years helps break pest and pathogen cycles, particularly for nematodes and . Planting resistant varieties, like 'Matador' or 'Picador' for Fusarium yellows, reduces susceptibility to vascular wilt and other diseases. Biological controls, including predatory wasps and lady beetles for and armyworms, offer natural suppression without broad-spectrum chemicals. Targeted fungicides such as are applied preventively for anthracnose and damping-off, while copper-based bactericides manage ; monitoring with traps and scouts ensures timely interventions. For viral control, enforcing celery-free periods of 1–3 months and removing weed reservoirs like wild further limits spread.

Harvesting and storage

Celery is typically harvested 90–120 days after , when the stalks reach a length of 15–25 for early varieties or up to 30–60 for mature plants, ensuring tenderness before pithiness develops. In commercial production, harvesting is often , involving cutting the plants at the base with knives to minimize damage, particularly for high-quality bunching celery. For large-scale fields, mechanical harvesters such as undercutters or mowing machines are employed to lift and cut plants efficiently, followed by on-field trimming. Post-harvest handling begins immediately to preserve freshness, starting with trimming the roots and outer leaves, followed by washing to remove and debris. The celery is then rapidly cooled via hydrocooling or methods to 0–4°C, reducing field heat and rates. Packaging typically involves placing bunches or hearts into perforated bags or cartons to allow ventilation and prevent excess , which can lead to . Optimal storage conditions for celery are 0°C with 98–100% relative humidity, enabling a of 2–3 months for wholesale storage while maintaining crispness and minimizing weight loss. Celery is moderately sensitive to , so it should not be stored near ethylene-producing fruits like apples to avoid accelerated yellowing and . For consumer use, refrigerated is 7–14 days when kept in the at 0–4°C. To prevent enzymatic browning on cut stalks, sulfites such as have historically been applied as preservatives in fresh-cut produce processing. However, due to concerns, their use is regulated; in the , limits are set at up to 100 for certain products, with alternatives like ascorbic acid now preferred to inhibit oxidation without health risks. Quality is further maintained by avoiding mechanical damage during handling, which can exacerbate pithiness and reduce marketability.

Uses

Culinary applications

Celery stalks are versatile in culinary preparations, often enjoyed raw for their crisp texture in salads such as the classic , which combines diced celery with apples, walnuts, and a creamy dressing. Cooked, the stalks form a foundational element in many dishes, particularly as part of —a aromatic base of finely chopped onions, carrots, and celery sautéed to enhance soups, stews, sauces, and stocks. They can also be stuffed with fillings like cheese spreads or mixtures for appetizers, providing a crunchy contrast to softer ingredients. The leaves of celery, which possess a more intense, herbaceous flavor than the stalks, are commonly used as an to flavor stocks, salads, and garnishes in various cuisines. In Asian cooking, particularly stir-fries, the leaves add a fresh, aromatic note when wilted briefly at the end of cooking. Their tender texture makes them suitable for chopping into green salads or blending into pestos and salsas verde for or dishes. Celery seeds, harvested from the plant's flowers, serve primarily as a due to their concentrated, slightly bitter taste. Ground seeds are incorporated into , dressings, and doughs for subtle earthiness, while whole seeds appear in curries and spice blends. , a mixture of ground seeds and salt, is a staple in cocktails like the Bloody Mary and in American potato salads, where it amplifies profiles. Fresh-pressed celery juice gained popularity as a standalone in , promoted through wellness literature and celebrity endorsements, often consumed plain or mixed in beverages for its mild, vegetal taste. It is also used in fermented preparations, such as certain variants of , where chopped celery contributes crunch and flavor during the lacto-fermentation process. Regionally, celery features prominently in diverse dishes: in , it appears in , a creamy salad of thinly sliced or grated celery dressed with mustard-mayonnaise ; Italian soffritto employs diced celery alongside onions and carrots as a sautéed base for sauces and risottos; and in American cooking, simple celery sticks spread with form a classic, no-cook snack, while the "Holy Trinity" of onion, celery, and anchors Cajun and stews like .

Nutritional profile

Celery is a low-calorie primarily composed of , making it a hydrating and nutrient-dense addition to diets. Per 100 grams of raw celery stalks, it provides approximately 16 kcal of energy, with 95.4 g of , 3 g of carbohydrates (including 1.6 g of and 1.3 g of sugars), 0.7 g of protein, and 0.2 g of fat. The offers modest amounts of several vitamins and minerals. Key vitamins include at 29 µg (24% Daily Value, DV), at 36 µg (9% DV), at 22 µg (2% DV), and at 3.1 mg (3% DV). Notable minerals are (260 mg, 6% DV), sodium (80 mg, 3% DV), and calcium (40 mg, 3% DV). These values position celery as a source of micronutrients that support , immune function, and balance, though it is not a for any single .
NutrientAmount per 100 g% Daily Value
16 kcal-
95.4 g-
Carbohydrates3 g-
1.6 g6%
Sugars1.3 g-
Protein0.7 g1%
Total fat0.2 g0%
29 µg24%
36 µg9%
22 µg2%
3.1 mg3%
260 mg6%
Sodium80 mg3%
Calcium40 mg3%
Celery has a low of approximately 32–35, which makes it suitable for low-carbohydrate diets as it minimally impacts blood sugar levels. Its high further aids , while the contributes to digestive health. Compared to carrots, celery has fewer calories (16 kcal vs. 41 kcal per 100 g) but comparable levels relative to its caloric (1.6 g vs. 3 g). Regarding residues, conventional celery has often appeared on the Environmental Working Group's "" list, highlighting higher contamination risks compared to organic varieties.

Medicinal applications

Celery has been employed in as a to address urinary issues, with roots used for treating and promoting urine production. In and practices, it served as a to alleviate anxiety, while in Ayurvedic systems, seed decoctions were prepared to manage and . These historical applications highlight celery's role in herbal remedies for fluid retention and calming effects. Modern therapeutic uses focus on celery seed extracts and oils. Celery seed oil is utilized for management due to its potential to inhibit production, though clinical evidence remains limited. Phthalides, bioactive compounds in celery, are incorporated into supplements at doses of 75–150 per day to support regulation by promoting . Common preparations include celery seed , made by steeping 1–2 g of seeds in hot water, which acts as a mild and aids digestion. Tinctures of celery seeds are taken for digestive support, helping to soothe gastrointestinal discomfort and stimulate enzyme activity. serves as a natural source of nitrates in cured meats, providing effects without synthetic additives. In clinical contexts, celery is included in herbal blends to relieve (IBS) symptoms through its anti-inflammatory properties. The , rich in , is applied in to reduce anxiety by modulating responses. Celery seed holds (GRAS) status from the FDA for use as a spice and flavoring agent. However, warnings exist for pregnant individuals due to potential uterine stimulant effects that could induce contractions.

Health and safety

Potential health benefits

Celery has shown potential in supporting cardiovascular health, primarily through its 3-n-butylphthalide (NBP), which exhibits vasodilatory and effects that contribute to reduction. A 2025 meta-analysis of randomized controlled trials indicated significant reductions in systolic (standardized mean difference [SMD] -1.0, 95% -1.85 to -0.14) and diastolic (SMD -0.93, 95% -1.54 to -0.33), based on studies with durations ranging from 12 to 84 days. Individual trials have reported absolute reductions of 8-19 mmHg in systolic pressure. Additionally, celery's high content helps counteract sodium's effects, aiding in management by promoting vascular relaxation. The vegetable's anti-inflammatory properties stem from like and polyacetylenes, which inhibit pro-inflammatory pathways and reduce markers such as (CRP) in preclinical models. 's activity further modulates immune responses, offering potential relief in scenarios. For digestive health, celery's content—approximately 1.6 g per 100 g—supports gut motility and regularity by adding bulk to stool and fostering a healthy . These effects promote overall bowel function without significant caloric intake. Beyond these areas, celery demonstrates neuroprotective potential; a 2025 study found that celery extract at 100 µg/mL increased cell viability by approximately 15% against amyloid-beta toxicity, suggesting protection against Alzheimer's-related mechanisms. Its content supports by facilitating calcium binding in bone proteins, potentially lowering risk through enhanced mineralization. As a low-calorie (about 16 kcal per 100 g), celery aids by promoting via and water content, allowing for higher volume intake with minimal . Overall, evidence from 2025 meta-analyses positions celery as promising for , with improvements in and observed across trials with high heterogeneity, though larger randomized controlled trials (RCTs) are required for confirmation. While preliminary data hint at broader benefits, there is no strong evidence supporting celery's role in at this time. Most findings are from small-scale or preclinical studies as of 2025, and further is needed to establish and .

Allergic reactions and concerns

Celery contains several identified allergens, primarily Api g 1, a Bet v 1-homologous protein, and Api g 4, a , which are responsible for triggering () in sensitized individuals. manifests as itching, tingling, or swelling in the , , and shortly after consumption of raw celery, affecting an estimated 10-20% of individuals allergic to due to IgE-mediated between Api g 1 and the Bet v 1. This extends to related plants, including carrots (via Dau c 1) and , contributing to the "--celery " observed in up to 70% of -allergic patients in some regions. While is the most common reaction, severe allergic responses such as , though rare, have been documented in cases of primary celery , particularly among those with co-sensitization. Celery is one of the 14 major allergens regulated by the , where it poses the highest risk due to its frequent inclusion in processed foods and higher sensitization rates in Central and compared to other regions. Additionally, in celery can induce photosensitization, leading to —characterized by blistering, , and —upon skin contact followed by exposure, even in non-allergic individuals handling the . Beyond allergies, celery raised concerns regarding nitrate accumulation from fertilized cultivation, with mean concentrations reaching up to 1610 mg/kg in fresh produce, potentially exceeding EU limits of 2000-2500 mg/kg in some samples. These nitrates can be reduced to nitrites in the body, which may form carcinogenic nitrosamines under certain conditions, posing a risk for methemoglobinemia in infants or long-term cancer associations in adults. Pesticide residues are another issue, as conventional celery frequently tests positive for multiple compounds; although not in the top 12 of the Environmental Working Group's 2025 Dirty Dozen list, it ranks among produce with notable contamination levels based on USDA data analysis. Sulfite sensitivity may arise from post-harvest treatments occasionally applied to celery for preservation, though less common than in other like ; affected asthmatics (3-10% prevalence) can experience wheezing, , or urticaria upon exposure. Precautions for at-risk individuals include avoiding raw celery if sensitized, as cooking or extensive heating can denature heat-labile allergens like Api g 1 and Api g 4, potentially allowing tolerance in mild cases. Pregnant women should limit intake of celery seeds due to their oxytocic properties, which may stimulate and pose risks in medicinal amounts. Individuals with known should carry epinephrine auto-injectors for severe reaction risks.

Cultural significance

In ancient Greece and Rome, celery held symbolic importance. Known as selinon, it was awarded as wreaths to victors of the Isthmian and , representing triumph. Over time, its associations shifted to death and mourning; it was used in funeral garlands and rituals, with wild celery found in ancient tombs, including that of Tutankhamen. During the (1830s–1900s), celery became a vegetable symbolizing wealth and status. It was cultivated expensively and displayed in ornate glass vases as a dinner centerpiece among the elite, while middle-class families reserved it for holidays. Featured in literature like Charles Dickens's (1843), it underscored social refinement.