Cumin

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Cumin
Scientific classification
Kingdom:	Plantae
(unranked):	Angiosperms
(unranked):	Eudicots
(unranked):	Asterids
Order:	Apiales
Family:	Apiaceae
Genus:	Cuminum
Species:	C. cyminum
Binomial name
Cuminum cyminum L.[1]

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Cumin (/ˈkjuːmᵻn/ or UK /ˈkʌmᵻn/, US /ˈkuːmᵻn/), sometimes spelled cummin, (Cuminum cyminum) is a flowering plant in the family Apiaceae, native from the east Mediterranean to Pakistan/India.

Its seeds (each one contained within a fruit, which is dried) are used in the cuisines of many different cultures, in both whole and ground form. It also has many uses as a traditional medicinal plant.^[2]

Etymology

The English "cumin" is derived from the Old English, from Latin cuminum,^[3] which is the Latinisation of the Greek κύμινον (kyminon),^[4] cognate with Hebrew כמון (kammon) and Arabic كمون (kammūn).^[5] The earliest attested form of the word in Greek is the Mycenaean 𐀓𐀖𐀜, ku-mi-no, written in Linear B syllabic script.^[6] Forms of this word are attested in several ancient Semitic languages, including kamūnu in Akkadian.^[7] The ultimate source is thought to be the Sumerian word gamun.^[8]

Description

Cumin is the dried seed of the herb Cuminum cyminum, a member of the parsley family. The cumin plant grows to 30–50 cm (12–20 in) tall and is harvested by hand. It is an annual herbaceous plant, with a slender, glabrous, branched stem that is 20–30 cm (8–12 in) tall and has a diameter of 3–5 cm (​1 ¹⁄₄–2 in).^[9] Each branch has two to three sub-branches. All the branches attain the same height, therefore the plant has a uniform canopy.^[9] The stem is coloured grey or dark green. The leaves are 5–10 cm (2–4 in) long, pinnate or bipinnate, with thread-like leaflets. The flowers are small, white or pink, and borne in umbels. Each umbel has five to seven umbellts.^[9] The fruit is a lateral fusiform or ovoid achene 4–5 mm (​¹⁄₆–​¹⁄₅ in) long, containing two mericarps with a single seed.^[9] Cumin seeds have eight ridges with oil canals.^[9] They resemble caraway seeds, being oblong in shape, longitudinally ridged, and yellow-brown in colour, like other members of the Umbelliferae family such as caraway, parsley, and dill.

History

Cumin has been in use since ancient times. Seeds excavated at the Syrian site Tell ed-Der have been dated to the second millennium BC. They have also been reported from several New Kingdom levels of ancient Egyptian archaeological sites.^[10] In the ancient Egyptian civilization, cumin was used as spice and as preservative in mummification.^[9]

Originally cultivated in Iran and the Mediterranean region,^{[citation needed]} cumin is mentioned in the Bible in both the Old Testament (Isaiah 28:27) and the New Testament (Matthew 23:23). The ancient Greeks kept cumin at the dining table in its own container (much as pepper is frequently kept today), and this practice continues in Morocco. Cumin was also used heavily in ancient Roman cuisine. In India, it has been used for millennia as a traditional ingredient of innumerable kormas, masalas, and soups, and forms the basis of many other spice blends.

Cumin was introduced to the Americas by Spanish and Portuguese colonists. Several different types of cumin are known, but the most famous ones are black and green cumin, both of which are used in Persian cuisine.

Today, the plant is mostly grown in Pakistan, India, Uzbekistan, Tajikistan, Iran, Turkey, Morocco, Egypt, Syria, Mexico, Chile, and China. Since cumin is often used as part of birdseed and exported to many countries, the plant can occur as an introduced species in many territories.^[11] Cumin occurs rarely as an introduced species in the British Isles, mainly in Southern England, but the frequency of its occurrence has declined greatly. According to the Botanical Society of the British Isles' most recent atlas, only one record has been confirmed since 2000.

Cultivation and production

Cultivation areas

The main producer and consumer of cumin is India. It produces 70% of the world supply and consumes 90% of that (which means that India consumes 63% of the world's cumin). Other producers are Syria (7%), Iran (6%), and Turkey (6%). The remaining 11% comes from other countries. In total, around 300,000 tons of cumin per year are produced worldwide. In 2007, India produced around 175,000 tons of cumin on an area of about 410,000 ha., i.e. the average yield was 0.43 tons per hectare.^[9] The Maltese island of Comino is named for the plant that grows wild there.

Climatic requirements

Cumin is a drought-tolerant, tropical, or subtropical crop. It has a growth season of 100 – 120 days.^[12] The optimum growth temperature ranges are between 25 and 30° C.^[9] The Mediterranean climate is most suitable for its growth. Cultivation of cumin requires a long, hot summer of three to four months. At low temperatures, leaf colour changes from green to purple. High temperature might reduce growth period and induce early ripening. In India, cumin is sown from October until the beginning of December, and harvesting starts in February.^[9] In Syria and Iran, cumin is sown from mid-November until mid-December (extensions up to mid-January are possible) and harvested in June/July.^[9]

Cultivation parameters

Cumin is grown from seeds. The seeds need 2 to 5 °C (36 to 41 °F) for emergence, an optimum of 20–30 °C (68–86 °F) is suggested. Cumin is vulnerable to frost damage, especially at flowering and early seed formation stages.^[9] Methods to reduce frost damage are spraying with sulfuric acid (0.1%), irrigating the crop prior to frost incidence, setting up windbreaks, or creating an early morning smoke cover.^[9] The seedlings of cumin are rather small and their vigor is low. Soaking the seeds for 8 hours before sowing enhances germination.^[9] For an optimal plant population a sowing density of 12–15 kilograms per hectare (11–13 lb/acre) is recommended.^[9] Fertile, sandy, loamy soils with good aeration, proper drainage and high oxygen availability are preferred. The pH optimum of the soil ranges from 6.8 to 8.3.^[9] Cumin seedlings are sensitive to salinity ^[12] and emergence from heavy soils is rather difficult. Therefore, a proper seedbed preparation (smooth bed) is crucial for optimal establishment of cumin.

Two sowing methods are used for cumin, broadcasting and line sowing.^[9] For broadcast sowing, the field is divided into beds and the seeds are uniformly broadcast in this bed. Afterwards, they are covered with soil using a rake. For line sowing, shallow furrows are prepared with hooks at a distance of 20 to 25 cm (8 to 10 in). The seeds are then placed in these furrows and covered with soil. Line sowing offers advantages for intercultural operations such as weeding, hoeing, or spraying.^[9] The recommended sowing depth is 1–2 cm and the recommended sowing density is around 120 plants per square metre. The water requirements of cumin are lower than those of many other species.^[9] Despite this, cumin is often irrigated after sowing to be sure that enough moisture is available for seedling development. The amount and frequency of irrigation depends on the climate conditions.^[9]

Cultivation management

The relative humidity in the center of origin of cumin is rather low. High relative humidity (i.e. wet years) favours fungal diseases. Cumin is especially sensitive to Alternaria blight and Fusarium wilt. Early-sown crops exhibit stronger disease effects than late sown crops. The most important disease is Fusarium wilt, resulting in yield losses up to 80%.^[9] Fusarium is seed- or soil-borne and it requires distinct soil temperatures for development of epidemics.^[9] Inadequate fertilization might favour Fusarium epidemics.^[9] Cumin blight (Alternaria) appears in the form of dark brown spots on leaves and stems.^[9] When the weather is cloudy after flowering, the incidence of the disease is increased.^[9] Another, but less important, disease is powdery mildew. Incidence of powdery mildew in early development can cause drastic yield losses because no seeds are formed.^[9] Later in development, powdery mildew causes discoloured, small seeds.^[9]

Pathogens can lead to high reductions in crop yield. Cumin can be attacked by aphids (Myzus persicae) at the flowering stage. They suck the sap of the plant from tender parts and flowers. The plant becomes yellow, the seed formation is reduced (yield reduction), and the quality of the harvested product decreases. Heavily infested plant parts should be removed. Other important pests are the mites (Petrobia latens) which frequently attack the crop. Since the mites mostly feed on young leaves, the infestation is more severe on young inflorescences.

The open canopy of cumin is another problem. Only a low proportion of the incoming light is absorbed. The leaf area index (LAI) of cumin is low (about 1.5). This might be a problem because weeds can compete with cumin for essential resources such as water and light and thereby lower yield. The slow growth and a short stature of cumin favours weed competition additionally.^[9] Two hoeing and weeding sessions (30 and 60 days after sowing) are needed for the control of weeds. During the first weeding session (30 days after sowing), thinning should be done, as well, to remove excess plants. The use of preplant or pre-emergence herbicides is very effective in India,^[9] but this kind of herbicide application requires soil moisture for a successful weed control.

Breeding of cumin

Cumin is a diploid species with 14 chromosomes (i.e. 2n = 14). The chromosomes of the different varieties have morphological similarities with no distinct variation in length and volume. Most of the varieties available today are selections.^[9] The variabilities of yield and yield components are high. Varieties are developed by sib mating in enclosed chambers^[9] or by biotechnology. Cumin is a cross-pollinator, i.e. the breeds are already hybrids. Therefore, methods used for breeding are in vitro regenerations, DNA technologies, and gene transfers. The in vitro cultivation of cumin allows the production of genetically identical plants. The main sources for the explants used in vitro regenerations are embryos, hypocotyl, shoot internodes, leaves, and cotyledons. One goal of cumin breeding is to improve its resistance to biotic (fungal diseases) and abiotic (cold, drought, salinity) stresses. The potential genetic variability for conventional breeding of cumin is limited and research about cumin genetics is scarce.^[13]

Uses

Cumin seed is used as a spice for its distinctive flavour and aroma. It is globally popular and an essential flavouring in many cuisines, particularly South Asian (where it is called jeera^{[citation needed]}), Northern African, and Latin American cuisines. Cumin can be found in some cheeses, such as Leyden cheese, and in some traditional breads from France. It is commonly used in traditional Brazilian cuisine. Cumin can be an ingredient in chili powder (often Tex-Mex or Mexican-style), and is found in achiote blends, adobos, sofrito, garam masala, curry powder, and bahaarat. In Myanmar, cumin is known as " ဇီရာ" (zi yar) and used as a spice. In South Asian cooking, it is often combined with coriander seeds in a powdered mixture called dhana jeera. [1]

Cumin can be used ground or as whole seeds. It helps to add an earthy and warming feeling to food, making it a staple in certain stews and soups, as well as spiced gravies such as chili. It is also used as an ingredient in some pickles and pastries.^[14]

Medicinal uses

Lua error in package.lua at line 80: module 'strict' not found. In Sanskrit, cumin is known as jira “that which helps digestion" and is called zira in Persian. In the Ayurvedic system, dried cumin seeds are used for medicinal purposes. These seeds are powdered and used in different forms like kashaya (decoction), arishta (fermented decoction), vati (tablet/pills), and processed with ghee (a semifluid clarified butter). It is used internally and sometimes for external applications also.

In southern India, popular drinks such as Kerala and Tamil Nadu are called jira water, which is made by boiling cumin seeds.^[15] It is believed that cumin is beneficial for heart disease, swellings, tastelessness, vomiting, poor digestion and chronic fever.^{[16][unreliable medical source?]} Cumin (Cuminum cyminum L.) has been reported to have antiglycative effects in vitro and in vivo. Especially such its components as thecuminoids C–E^[17]

Secondary metabolites

Cuminaldehyde, cymene and terpenoids are the major volatile components of cumin. Results of a study conducted in India showed that cumin can be used as an antioxidant.^[18] The antioxidative potential is correlated with the phenol content of cumin.^[18] Cuminaldehyde has also antimicrobial and antifungal properties which could be shown e.g. with Escherichia coli and Penicillium chrysogenum.^[19]

Nutritional value

Cumin seed

Nutritional value per 100 g
Energy	1,567 kJ (375 kcal)
Carbohydrates	44.24 g
Sugars	2.25 g
Dietary fibre	10.5 g
Fat	22.27 g
Saturated	1.535 g
Monounsaturated	14.04 g
Polyunsaturated	3.279 g
Protein	17.81 g
Vitamins
Vitamin A equiv. beta-carotene	(8%) 64 μg (7%) 762 μg
Vitamin A	1270 IU
Thiamine (B1)	(55%) 0.628 mg
Riboflavin (B2)	(27%) 0.327 mg
Niacin (B3)	(31%) 4.579 mg
Vitamin B6	(33%) 0.435 mg
Folate (B9)	(3%) 10 μg
Vitamin B12	(0%) 0 μg
Choline	(5%) 24.7 mg
Vitamin C	(9%) 7.7 mg
Vitamin D	(0%) 0 μg
Vitamin D	(0%) 0 IU
Vitamin E	(22%) 3.33 mg
Vitamin K	(5%) 5.4 μg
Minerals
Calcium	(93%) 931 mg
Iron	(510%) 66.36 mg
Magnesium	(262%) 931 mg
Manganese	(159%) 3.333 mg
Phosphorus	(71%) 499 mg
Potassium	(38%) 1788 mg
Sodium	(11%) 168 mg
Zinc	(51%) 4.8 mg
Other constituents
Water	8.06 g
Reference [20]
Units μg = micrograms • mg = milligrams IU = International units
Percentages are roughly approximated using US recommendations for adults. Source: USDA Nutrient Database

Although cumin seeds contain a relatively large percentage of iron, extremely large quantities of cumin would need to be consumed for it to serve as a significant dietary source (see nutrition data).

According to the USDA, one tablespoon of cumin spice contains^[21]

• 22 kcal (92 kJ) of food energy,
• 1.34 g (0.047 oz) of fat,
• 2.63 g (0.093 oz) of carbohydrates,
• 0.6 g (0.021 oz) of fibre and
• 1.07 g (0.038 oz) of protein.

Confusion with other spices

Cumin is sometimes confused with caraway (Carum carvi), another umbelliferous spice. Cumin, though, is hotter to the taste, lighter in color, and larger. Many European languages do not distinguish clearly between the two. Many Slavic and Uralic languages refer to cumin as "Roman caraway". Examples include Czech: kmín – caraway, římský kmín -cumin; Polish: kminek – caraway, kmin rzymski – cumin; Hungarian: kömény – caraway, római kömény – cumin. Finnish: kumina – caraway, roomankumina – cumin, although sometimes also called juustokumina, cheese caraway. In Norwegian, caraway is called both karve and kummin while cumin is spisskummen, from German Speis(e) meaning "food".^[22] Similarly in Swedish and Danish, caraway is kummin/kommen, while cumin is spiskummin/spidskommen. In German, Kümmel stands for caraway and Kreuzkümmel denotes cumin. In Icelandic, caraway is kúmen, while cumin is kúmín. In Romanian, chimen, chimion is caraway, while chimion turcesc (Turkish caraway), cumin, camon is cumin.

The distantly related Bunium persicum, Bunium bulbocastanum and the unrelated Nigella sativa are both sometimes called black cumin (q.v.).

Aroma profile

Cumin's distinctive flavour is strong. It has a warm aroma due to its essential oil content. Its main constituent aroma compounds are cuminaldehyde (a promising agent against alpha-synuclein aggregation) and cuminic alcohol. Other important aroma compounds of toasted cumin are the substituted pyrazines, 2-ethoxy-3-isopropylpyrazine, 2-methoxy-3-sec-butylpyrazine, and 2-methoxy-3-methylpyrazine. Other components include γ-terpinene, safranal, p-cymene and β-pinene.^[23][24][25]

Images

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  Dry, whole cumin fruit (or seed)

• 

  Commercially packaged whole and ground cumin seeds

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  Close up of dried cumin seeds

References

External links

Wikibooks Cookbook has a recipe/module on <templatestyles src="Plainlist/styles.css"/> Cumin

• Antifungal Activities and Essential Oils of Pakistani Spices – Electronic Conference on Synthetic Organic Chemistry 1999