Brassica oleracea is a plant species from the family Brassicaceae that includes many common cultivars used as vegetables, such as cabbage, broccoli, cauliflower, kale, Brussels sprouts, collard greens, Savoy cabbage, kohlrabi, and gai lan. It was most likely first brought into cultivation in the Eastern Mediterranean region. The uncultivated form of the species, wild cabbage, originates from feral populations.
Wild B. oleracea is a tall biennial plant that forms a stout rosette of large leaves in the first year. The leaves are fleshier and thicker than other Brassica species—an adaptation that helps it store water and nutrients in its difficult growing environment. In its second year, it uses the stored nutrients to produce a flower spike 1to(-) tall with numerous yellow flowers. Wild cabbage is a hardy plant with a high tolerance for salt and lime and low tolerance to competition from other plants.[1]
According to the Triangle of U theory, B. oleracea is very closely related to five other species of the genus Brassica.[2] A 2021 study suggests that Brassica cretica, native to the Eastern Mediterranean, particularly Greece and the Aegean Islands, was the closest living relative of cultivated B. oleracea, thus supporting the view that its cultivation originated in the Eastern Mediterranean region, with later admixture from other Brassica species.[3] Genetic analysis of nine wild populations on the French Atlantic coast indicated their common feral origin, deriving from domesticated plants escaped from fields and gardens.[4]
The cultivars of B. oleracea are grouped by developmental form into several major cultivar groups, of which the Acephala ("non-heading") group remains most like the natural wild cabbage in appearance.
'Brassica' was Pliny the Elder's name for several cabbage-like plants.[5]
Its specific epithet oleracea means "vegetable/herbal" in Latin and is a form of (Latin: oleraceus).[6] [7]
Its uncultivated form, wild cabbage is a hardy plant with high tolerance for salt and lime. However, its intolerance of competition from other plants typically restricts its natural occurrence to limestone sea cliffs, like the chalk cliffs on both sides of the English Channel.[8]
B. oleracea has become established as an important human food crop plant, used because of its large food reserves, which are stored over the winter in its leaves. It has been bred into a wide range of cultivars, including cabbage, broccoli, cauliflower, brussels sprouts, collards, and kale, some of which are hardly recognizable as being members of the same genus, let alone species.[9] The historical genus of Crucifera, meaning "cross-bearing" in reference to the four-petaled flowers, may be the only unifying feature beyond taste.
Researchers believe it has been cultivated for several thousand years, but its history as a domesticated plant is not clear before Greek and Roman times, when it was a well-established garden vegetable. Theophrastus mentions three kinds of (ῤάφανος):[10] a curly-leaved, a smooth-leaved, and a wild-type.[11] He reports the antipathy of the cabbage and the grape vine, for the ancients believed cabbages grown near grapes would impart their flavour to the wine.[12]
Through artificial selection for various phenotype traits, the emergence of variations of the plant with drastic differences in appearance occurred over centuries. Preference for leaves, terminal buds, lateral buds, stems, and inflorescences resulted in selection of varieties of wild cabbage into the many forms known today. The wild plant (and its ancestors) originated in the eastern Mediterranean region of Europe. Estimated from Sanskrit writings 4,000 years ago, as well as Greek writings from the sixth century BC, plant cultivation may have occurred.[13]
The preference for eating the leaves led to the selection of plants with larger leaves being harvested and their seeds planted for the next growth. Around the fifth century BC, the formation of what is now known as kale had developed.[14] Preference led to further artificial selection of kale plants with more tightly bunched leaves or terminal buds. Around the first century AD, the phenotype variation of B. oleracea known as cabbage emerged. Phenotype selection preferences in Germany resulted in a new variation from the kale cultivar. By selecting for wider stems, the variant plant known as kohlrabi emerged around the first century AD.
European preference emerged for eating immature buds, selection for inflorescence. Early records in 15th century AD, indicate that early cauliflower and broccoli heading types were found throughout southern Italy and Sicily, although these types may not have been resolved into distinct cultivars until about 100 years later.[15] [16] [17] Further selection in Belgium in lateral bud led to Brussels sprouts in the 18th century.
According to the Royal Botanic Gardens (Kew Species Profiles)[18] the species has eight cultivar groups. Each cultivar group has many cultivars, like 'Lacinato' kale or 'Belstar' broccoli.
non-heading cultivars (kale, collards, ornamental cabbage, ornamental kale, flowering kale, tree cabbage).
Asian Cuisine cultivars (Chinese kale, Chinese broccoli, gai lan, kai lan).
cultivars that form compact inflorescences (broccoli, cauliflower, broccoflower, calabrese broccoli, romanesco broccoli).
cabbage and cabbage-like cultivars (cabbage, savoy cabbage, red cabbage).
bud-producing cultivars (sprouts, Brussels sprouts)
turnip-like cultivars (kohlrabi, knol-kohl)
sprouts (purple sprouting broccoli, sprouting broccoli). Edible inflorescences not compacted into a single head.
low-growing annuals with spreading leaves (Portuguese cabbage, seakale cabbage).
A 2024 study compares 704 B. oleracea sequences and establishes a phylogenetic tree of cultivars. The authors find large-scale changes in gene expression and gene presence. Some genes are putatively linked to certain traits such as arrested inflorescence (typical of cauliflower and broccoli).[19]
| Cultivar | Image | Cultivar group (Kew) | Name (variety, form) |
|---|---|---|---|
| Wild cabbage | N/A | Brassica oleracea var. oleracea | |
| Cabbage | Brassica oleracea var. capitata f. alba | ||
| Savoy cabbage | Brassica oleracea var. capitata f. sabauda | ||
| Red cabbage | Brassica oleracea var. capitata f. rubra | ||
| Cone cabbage | Brassica oleracea var. capitata f. acuta | ||
| Gai lan | Brassica oleracea var. alboglabra | ||
| Collard greens | Brassica oleracea var. viridis | ||
| Jersey cabbage | Acephala | Brassica oleracea var. longata | |
| Ornamental kale | Acephala | Brassica oleracea var. acephala | |
| Kale | Brassica oleracea var. sabellica | ||
| Lacinato kale | Brassica oleracea var. palmifolia | ||
| Perpetual kale | Brassica oleracea var. ramosa | ||
| Kalette | Hybrid | Brassica oleracea var. viridis x gemmifera | |
| Marrow cabbage | Acephala | Brassica oleracea var. medullosa | |
| Tronchuda kale | Brassica oleracea var. costata | ||
| Brussels sprout | Brassica oleracea var. gemmifera | ||
| Kohlrabi | Brassica oleracea var. gongylodes | ||
| Broccoli | Brassica oleracea var. italica | ||
| Cauliflower | Botrytis | Brassica oleracea var. botrytis | |
| Caulini | Botrytis | Brassica oleracea var. botrytis | |
| Romanesco broccoli | Botrytis | Brassica oleracea var. botrytis | |
| Broccoli di Torbole | Brassica oleracea var. botrytis | ||
| Broccoflower | Hybrid (within Botrytis) | Brassica oleracea var. botrytis × italica | |
| Broccolini | Hybrid | Brassica oleracea var. italica × alboglabra | |
The TAS2R38 gene encodes a G protein-coupled receptor that functions as a taste receptor, mediated by ligands such as PROP and phenylthiocarbamide that bind to the receptor and initiate signaling that confers various degrees of taste perception. Bitter taste receptors in the TS2R family are also found in gut mucosal and pancreatic cells in humans and rodents. These receptors influence release of hormones involved in appetite regulation, such as peptide YY and glucagon-like peptide-1, and therefore may influence caloric intake and the development of obesity. Thus, bitter taste perception may affect dietary behaviors by influencing both taste preferences and metabolic hormonal regulation.[20]
Three variants in the TAS2R38 gene – rs713598, rs1726866, and rs10246939 – are in high linkage disequilibrium in most populations and result in amino acid coding changes that lead to a range of bitter taste perception phenotypes. The PAV haplotype is dominant; therefore, individuals with at least one copy of the PAV allele perceive molecules in vegetables that resemble PROP as tasting bitter, and consequently may develop an aversion to bitter vegetables. In contrast, individuals with two AVI haplotypes are bitter non-tasters. PAV and AVI haplotypes are the most common, though other haplotypes exist that confer intermediate bitter taste sensitivity (AAI, AAV, AVV, and PVI). This taste aversion may apply to vegetables in general.[20] [21]
from Untamed Science