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(Redirected from Flos Carthami) Species of plant Not to be confused with saffron.

Safflower
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Asterales
Family: Asteraceae
Genus: Carthamus
Species: C. tinctorium
Binomial name
Carthamus tinctorium
L.
Carthamus tinctorius
Worldwide safflower production
Carthamus tinctorius - MHNT

Safflower (Carthamus tinctorius) is a highly branched, herbaceous, thistle-like annual plant in the family Asteraceae. It is one of the world's oldest crops, and today is commercially cultivated for vegetable oil extracted from the seeds. Plants are 30 to 150 cm (12 to 59 in) tall with globular flower heads having yellow, orange, or red flowers. Each branch will usually have from one to five flower heads containing 15 to 20 seeds per head. Safflower is native to arid environments having seasonal rain. It grows a deep taproot which enables it to thrive in such environments.

Biology

Safflower (Carthamus tinctorius), Illustration

Plant morphology

Safflower is a fast growing, erect, winter/spring-growing annual herb, that resembles a thistle. Originating from a leaf rosette emerges a branched central stem (also referred to as terminal stem), when day length and temperature increase. The main shoot reaches heights of 30–150 cm (12–59 in). The plant also develops a strong taproot, growing as deep as 2 m (6 ft 7 in). First lateral branches develop, once the main stem is about 20–40 cm (7.9–15.7 in) high. These lateral branches can then branch again to produce secondary and tertiary branches. The chosen variety as well as growing conditions influence the extent of branching.

The elongated and serrated leaves reach lengths of 10–15 cm (3.9–5.9 in) and widths of 2.5–5 cm (0.98–1.97 in) and run down the stem. The upper leaves that form the bracts are usually short, stiff and ovate, terminating in a spine. Buds are borne on the ends of branches, and each composite flower head (capitulum) contains 20–180 individual florets. Depending on variety, crop management and growing conditions, each plant can develop 3–50 or more flower heads of 1.25–4 cm (0.49–1.57 in) diameter. Flowering commences with terminal flower heads (central stem), followed sequentially by primary, secondary and sometimes tertiary branch flower heads. Individual florets usually flower for 3–4 days. Commercial varieties are largely self-pollinated. Flowers are commonly yellow, orange and red, but white and cream coloured forms exist. The dicarpelled, epigynous ovary forms the ovule. The safflower plant then produces achenes. Each flower head commonly contains 15–50 seeds; however, the number can exceed 100. The shell content of the seeds varies between 30 and 60%, the oil content of the seeds varies between 20 and 40%.

Plant development

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Find sources: "Safflower" – news · newspapers · books · scholar · JSTOR (October 2021)

Safflower usually emerges 1–3 weeks after sowing and grows slower under low temperatures. Germination of safflower is epigeal. The first true leaves emerging form a rosette. This stage occurs in winter with short daylength and cold temperature, as the safflower can tolerate frosts up to −7 °C (19 °F) during the rosette stage.

When temperature and daylength start to increase, the central stem begins to elongate and branch, growing more rapidly. Early sowing allows more time for developing a large rosette and more extensive branching, which results in a higher yield.

Flowering is mainly influenced by daylength. The period from the end of flowering to maturity is usually 4 weeks. The total period from sowing to harvest maturity varies with variety, location, sowing time and growing conditions; for June or July sowings, it may be about 26–31 weeks.

Both wild and cultivated forms have a diploid set of 2n = 24 chromosomes. Crossings with Carthamus palaestinus, Carthamus oxyacanthus and Carthamus persicus can produce fertile offspring.

History

Safflower is one of humanity's oldest crops. It was first cultivated in Mesopotamia, with archaeological traces possibly dating as early as 2500 BC.

Chemical analysis of ancient Egyptian textiles dated to the Twelfth Dynasty (1991–1802 BC) identified dyes made from safflower, and garlands made from safflowers were found in the tomb of the pharaoh Tutankhamun. John Chadwick reports that the Greek name for safflower (kárthamos, κάρθαμος) occurs many times in Linear B tablets, distinguished into two kinds: a white safflower (ka-na-ko re-u-ka, knākos leukā, κνάκος λευκά), which was measured, and red (ka-na-ko e-ru-ta-ra, knākos eruthrā, κνάκος ερυθρά) which was weighed. "The explanation is that there are two parts of the plant which can be used; the pale seeds and the red florets."

The early Spanish colonies along the Rio Grande in New Mexico used safflower as a substitute for saffron in traditional recipes. An heirloom variety originating in Corrales, New Mexico, called "Corrales Azafran", is still cultivated and used as a saffron substitute in New Mexican cuisine.

Cultivation

Climate

Safflower prefers high temperatures and grows best at 28–35 °C (82–95 °F). It tolerates 40 °C (104 °F), but there are also some varieties which grow under very low temperatures. Safflower is cultivated in different seasons: as a winter crop in south central India, as an early summer crop in California and as a mid-summer crop in the Northern Great Plains of the United States. Minimum length of the growing season is 120 and 200 days for summer and winter cultivars, respectively. Plant performance is highly dependent on the different planting dates in terms of temperature and day length. Winter hard varieties only form a rosette in late fall and elongates in spring. In early stages, safflower tolerates humidity but after bud stage the danger of a Botrytis blight infestation increases

Safflower is drought tolerant. The tap root makes moisture from deep soil layers available. Additionally, this tolerance can also be explained by the higher water use efficiency compared to other oil crops such as linseed and mustard. Shortly before and during maximum flowering water requirements are the highest. Beside drought tolerance, all parts of the plant are sensitive to moisture in terms of diseases. In the case of excessive water supply, it is susceptible to root rot. Therefore, many varieties are not suitable in irrigated agriculture especially on soils with danger of waterlogging.

Safflower tolerates wind and hail better than cereals. It stays erect and can retain the seeds in the head.

Soil

Safflower prefers well-drained, neutral, fertile and deep soils. It can adapt well to soil pH (pH 5–8) and tolerates salinity. Safflower can be well grown on different soil types, with water supply as its main driving factor for suitability, depending on climate and irrigation, and the resulting different water regimes of the different soil types. Therefore, cultivation on shallow soils and especially on soils with danger of waterlogging is not suitable. The deep rooting promotes water and air movement and improves the soil quality for subsequent crops in a rotation.

Nutrient requirements can be compared to wheat and barley, except nitrogen amendment should be increased by 20%. Therefore, soils with an adequate nitrogen supply are favorable.

Agricultural practice

Crop rotation and sowing

Safflower is frequently grown in crop rotation with small grains, fallow and annual legumes. Close rotation with crops susceptible to Sclerotinia sclerotiorum should be avoided (e.g. sunflower, canola, mustard plant and pea). A four-year rotation is recommended to reduce disease pressure.

Seeds should be sown in spring as early as 4.5 °C (40.1 °F) soil temperature is exceeded, to take advantage of the full growing season. If wireworms were a problem in the field in previous seasons, a respective seed treatment is recommended. A planting depth between 2.5–3.5 cm (0.98–1.38 in) is optimal. Shallow seeding promotes uniform emergence resulting in a better stand.

Seeding rate recommendations are around 17–33.5 kg/ha (15.2–29.9 lb/acre) of live seed. Where lower seeding rates promote branching, a longer flowering period and later maturity and higher rates promote thicker stands with a higher disease incidence. Sufficient moisture is necessary for germination. Usually, row spacing between 15–25 cm (5.9–9.8 in) are chosen using similar drill settings as recommended for barley.

Management

The total N recommendation is 90 kg/ha (80 lb/acre). This should include credits based on previous crops and soil available N. For the latter, deeper positioned nutrients need to be taken into account as safflower will root deeper than small grains and therefore access nutrients unavailable to them. Safflower growing in soils low in phosphorus need to be fertilized. Up to 39 kg/ha (35 lb/acre) of phosphate can be drill-applied safely.

A weed control program is essential when growing safflower as it is a poor competitor with weeds during the rosette stage. Cultivation on fields with heavy infestation of perennial weeds is not recommended.

Harvest

Safflower is mature when most leaves have turned brown approximately 30 days after flowering. Seeds should fall from the head when rubbed. Rain and high humidity after maturity may cause the seeds to sprout on the head.

Harvesting is usually done using a small-grain combine harvester. Moisture in seeds should not exceed 8% to allow for a safe, long-term storage. Drying can be done similar to sunflower. Temperatures must not exceed 43 °C (109 °F) to prevent damage to the seed and ensure quality.

Pests

Diseases

Alternaria spp. present one of the most prevalent diseases causing losses as high as 50% in India. In a field trial in Switzerland, Botrytis cinerea was the most prevalent disease.

Summary of plant diseases occurring on safflower without consideration of the geographical distribution and importance
Disease Cause Symptoms Control
Bacterial diseases
Bacterial blight Pseudomonas syringae Dark, water soaked lesions on stems, leaf petioles and leaves. Red-brown necrotic spots on leaves. Severely infected plants die. No control reported.
Stem soft rot Erwinia carotovora Wilting. Stems have a soft internal rot. No control reported.
Fungal diseases
Alternia leaf spot Alternaria carthami Seeds may rot or seedlings damp off. Brown spots on the cotyldedones. If stem is infected plant collapses. Disease free seeds, fungicide treatment of seeds, resistant cultivar, hot water treatment of the seeds.
Botrytis head rot Botrytis cinerea Seed heads change color from a dark to light green followed by complete browning. Infected floral parts will be covered with a gray mold. No control reported.
Cercospora leaf spot Cercospora carthami At any stage of growth. Commonly round spots on lower leaves. No control necessary.
Colletrichum stem rot Colletrichum orbiculare Brown lesions, which can become necrotic occurring on the base of stems. Plant may die. No control necessary.
Fusarium wilt Fusarium oxysporum Yellowing leaves at one side of the plant beginning on the lower leaves followed by wilting. Young plants may die. Don't plant seeds from affected plants, fungicide treatment of seeds, rotation, resistant cultivar
Phytophtora root rot Phytophtora cryptogea, P. drechsleri, P. cactorum At any stage of growth. Lower stems of seedlings collapse. On older plants leaves turn light green or yellow, then wild and die. Resistant cultivar, provide good drainage, avoid ponding of water
Powdery mildew Erysiphe cichoracearum Gray powdery mass of conidia on leaf surfaces No control reported.
Pythium root rot Pythium spp. Hypocotyl and first internode become water-soaked and soft with light brown discoloration. Later plant collapses Fungicide treatment of seeds, avoid irrigation
Ramularia leaf spot Ramularia carthani Round and regular spots in both sides of leaves. Yield and seed quality is affected. Rotation
Rhizocotina blight Rhizocotina solani Dark cortical lesions in the seedling stem. In advanced stages disease lesions extend up the stem. Root development is reduced Resistant cultivar
Rust Puccinia carthami Can occur at seedling phase or at foliage phase. Fungicide treatment of seeds, rotation, plow under residue, resistant cultivar
Sclerotinia stem rot Sclerotinia sclerotiorum Leaves turn yellow, wilt, turn brown and shrivel. White cottony growth on the stem. Can also affect heads. Plant may die. Don't plant safflower with other plants susceptible to S. sclerotiorum.
Verticillum wilt Verticillum wilt At any stage of growth. Leaves turn darker green than those of healthy plants. In older plants on lower leaves first. Unilateral leaf growth. Chlorotic areas on leaves. Normally minor disease. Do not rotate with cotton, peanuts and other susceptible crops.
Mycoplasmal diseases
Safflower phyllody Safflower phyllody mycoplasma Abnormal axillary budding. Keep safflower fields free of the weed Carthamus tenuis L. because the leafhopper (vector) breeds in this weed
Viral diseases
Chilli mosaic Chilli mosaic virus CMV Light and dark green patches are scattered over leaves No control reported.
Cucumber mosaic Light and dark green mosaic pattern primarily on upper leaves No control reported.
Severe mosaic Turnip mosaic virus (TuMV) Stunted plants with reduced leaf and seed head size. Seed ovules rot. No control reported.
Tobacco mosaic Tobacco mosaic virus (TMV) Blotchy light and dark green mosaic patterns on leaves. No control reported.

Production

In 2020, global production of safflower seeds was 653,030 tonnes, led by Kazakhstan with 35% of the world total (table). Other significant producers were Russia and Mexico, with 28% of world production combined.

Safflower production, 2020
Country Seeds in tonnes
 Kazakhstan 226,739
 Russia 96,636
 Mexico 86,793
 United States 67,040
 India 44,000
Total 653,030

Uses

Traditionally, the crop was grown for its seeds, and used for coloring and flavoring foods, in medicines, and making red (carthamin) and yellow dyes, especially before cheaper aniline dyes became available.

Safflower oil

For the last fifty years or so, the plant has been cultivated mainly for the vegetable oil extracted from its seeds. Safflower seed oil is flavorless and colorless. It is used mainly in cosmetics and as a cooking oil, in salad dressing, and for the production of margarine. INCI nomenclature is Carthamus tinctorius.

There are two types of safflower that produce different kinds of oil: one high in monounsaturated fatty acid (oleic acid) and the other high in polyunsaturated fatty acid (linoleic acid). Currently the predominant edible oil market is for the former, which is lower in saturated fats than olive oil. The latter is used in painting in the place of linseed oil, particularly with white paints, as it does not have the yellow tint which linseed oil possesses.

In one review of small clinical trials, safflower oil consumption reduced blood low-density lipoprotein levels – a risk factor for cardiovascular diseases – more than those seen from butter or lard consumption.

Nutrient value per 100g
of high-linoleic safflower seed oil
Min Max
Saturated fatty acids Myristic C14:0 0 0.5
Palmitic C16:0 4 8.6
Stearic C18:0 1.7 2.6
Monounsaturated fatty acids Oleic C18:1 8.1 18.4
Eicosenoic C20:1 0 0.2
Polyunsaturated fatty acids Linoleic C18:2 71.6 83.7
Arachidonic C20:4 0 0.4
Linolenic C18:3 0 0.1
Fatty acid composition of high-oleic safflower seed oil
%
Saturated fatty acids Palmitic C16:0 ~5
Stearic C18:0 ~2
Monounsaturated fatty acids Oleic C18:1 ~78
Polyunsaturated fatty acids Linoleic C18:2 ~13

Flowers for human consumption

Safflower at a market

Safflower flowers are occasionally used in cooking as a cheaper substitute for saffron, sometimes referred to as "bastard saffron".

The dried safflower petals are also used as a herbal tea variety.

Dye from flowers

Safflower oil as a medium for oil colours

Safflower petals contain one red and two yellow dyes. In coloring textiles, dried safflower flowers are used as a natural dye source for the orange-red pigment carthamin. Carthamin is also known, in the dye industry, as Carthamus Red or Natural Red 26. Yellow dye from safflower is known as Carthamus yellow or Natural Yellow 5. One of the yellow pigments is fugitive and will wash away in cold water. The dye is suitable for cotton, which takes up the red dye, and silk, which takes up the yellow and red color yielding orange. No mordant is required.

In Japan, dyers have long utilised a technique of producing a bright red to orange-red dye (known as carthamin) from the dried florets of safflower (Carthamus tinctorius). Darker shades are achieved by repeating the dyeing process several times, having the fabric dry, and redyed. Due to the expensive nature of the dye, safflower dye was sometimes diluted with other dyestuffs, such as turmeric and sappan.

Biodegradable oil

In Australia in 2005, CSIRO and Grains Research and Development Corporation launched the Crop Biofactories initiative to produce 93% oleic oil for use as a biodegradable oil for lubricants, hydraulic fluids, and transformer oils, and as a feedstock for biopolymers and surfactants.

See also

References

  1. "Tropicos". Missouri Botanical Garden, St. Louis, MO. 2016. Retrieved 16 June 2016.
  2. ^ Grain research & development corporation (2020-11-06). "Safflower plant growth and physiology" (PDF).
  3. Pearman, Georgina (2005). Prance, Ghillean; Nesbitt, Mark (eds.). The Cultural History of Plants. Routledge. p. 150. ISBN 0415927463.
  4. ^ Safflower, p. 168, at Google Books in Zohary, Daniel; Weiss, Ehud; Hopf, Maria (2012). "Dye crops". Domestication of Plants in the Old World. pp. 166–168. doi:10.1093/acprof:osobl/9780199549061.003.0009. ISBN 978-0-19-954906-1.
  5. John Chadwick, The Mycenaean World (Cambridge: University Press, 1976), p. 120
  6. "Corrales Azafrán - Native-Seeds-Search". shop.nativeseeds.org.
  7. ^ Nwokolo, E; Smartt, J, eds. (1996). Food and Feed from Legumes and Oilseeds. doi:10.1007/978-1-4613-0433-3. ISBN 978-1-4613-8050-4.
  8. ^ Knowles, P. F. (2015). "Safflower". Hybridization of Crop Plants. pp. 535–548. doi:10.2135/1980.hybridizationofcrops.c38. ISBN 9780891185666.
  9. ^ Knowles, P. F. (July 1955). "Safflower — production, processing and utilization". Economic Botany. 9 (3): 273–299. doi:10.1007/BF02859823. S2CID 46373776.
  10. Hussain, M. Iftikhar; Lyra, Dionyssia-Angeliki; Farooq, Muhammad; Nikoloudakis, Nikolaos; Khalid, Nauman (March 2016). "Salt and drought stresses in safflower: a review". Agronomy for Sustainable Development. 36 (1): 4. doi:10.1007/s13593-015-0344-8. hdl:20.500.14279/9052. S2CID 18210727.
  11. Kar, Gouranga; Kumar, Ashwani; Martha, M. (January 2007). "Water use efficiency and crop coefficients of dry season oilseed crops". Agricultural Water Management. 87 (1): 73–82. Bibcode:2007AgWM...87...73K. doi:10.1016/j.agwat.2006.06.002.
  12. ^ "Raising the Bar With Better Safflower Agronomy". Grains Research and Development Corporation. Retrieved 2020-11-08.
  13. ^ "Safflower Production — Publications". www.ag.ndsu.edu. 21 August 2019. Retrieved 2020-11-06.
  14. Gupta, S.K, ed. (2012). Technological Innovations in Major World Oil Crops, Volume 1. doi:10.1007/978-1-4614-0356-2. ISBN 978-1-4614-0355-5. S2CID 38884275.
  15. "Distelöl aus Schweizer Saflor?". Agrarforschung Schweiz (in German). 2005-04-01. Retrieved 2020-11-08.
  16. Nyvall, Robert F. (1989). Field Crop Diseases Handbook. doi:10.1007/978-1-4757-5221-2. ISBN 978-1-4757-5223-6. S2CID 38851230.
  17. "World production of safflower seeds in 2020; World Regions/Crops/Production from pick lists". United Nations Food and Agriculture Organization, Statistics Division (FAOSTAT). 2022. Retrieved 16 May 2022.
  18. Schwingshackl, Lukas; Bogensberger, Berit; Benčič, Aleksander; Knüppel, Sven; Boeing, Heiner; Hoffmann, Georg (September 2018). "Effects of oils and solid fats on blood lipids: a systematic review and network meta-analysis". Journal of Lipid Research. 59 (9): 1771–1782. doi:10.1194/jlr.P085522. PMC 6121943. PMID 30006369.
  19. "Appendix B. Fatty Acid Composition of Dietary Fats and Oils". The Fats of Life. 2019. pp. 219–221. doi:10.36019/9780813549194-009. ISBN 9780813549194. S2CID 241747841.
  20. Sabzalian, Mohammad R.; Saeidi, Ghodratollah; Mirlohi, Aghafakhr (August 2008). "Oil Content and Fatty Acid Composition in Seeds of Three Safflower Species". Journal of the American Oil Chemists' Society. 85 (8): 717–721. doi:10.1007/s11746-008-1254-6. S2CID 85260715.
  21. Mailer, R., Potter, T., Redden, R., & Ayton, J. (2008). Quality evaluation of safflower (Carthamus tinctorius L.) cultivars. In Paper presented at the 7th international safflower conference (Wagga Wagga, NSW) S2CID 25100084
  22. Ben Moumen, Abdessamad; Mansouri, Farid; Richard, Gaetan; Abid, Malika; Fauconnier, Marie-Laure; Sindic, Marianne; El Amrani, Ahmed; Serghini Caid, Hana (March 2015). "Biochemical characterisation of the seed oils of four safflower ( Carthamus tinctorius ) varieties grown in north-eastern of Morocco". International Journal of Food Science & Technology. 50 (3): 804–810. doi:10.1111/ijfs.12714. hdl:2268/175051.
  23. Coşge, Belgin; Gürbüz, Bilal; Kiralan, Mustafa (2007). "Oil Content and Fatty Acid Composition of Some Safflower (Carthamus tinctorius L.) Varieties Sown in Spring and Winter". International Journal of Natural and Engineering Sciences. 1 (3): 11–15.
  24. Salaberría, F., Constenla, D., Carelli, A.A. et al. Chemical Composition and Physical Properties of High Oleic Safflower Oils (Carthamus tinctorius, Var. CW88-OL and CW99-OL). J Am Oil Chem Soc 93, 1383–1391 (2016). https://doi.org/10.1007/s11746-016-2886-6 |url=https://link.springer.com/article/10.1007/s11746-016-2886-6
  25. E.g. "safflower" in Webster's Dictionary, year 1828 Archived 2013-05-08 at the Wayback Machine. E.g. "bastard saffron" in The Herball, or General Historie of Plantes, by John Gerarde, year 1597, pages 1006-1007.
  26. "Carthamus red; In: Compendium of Food Additive Specifications. Addendum 5. (FAO Food and Nutrition Paper - 52 Add. 5)". FAO/WHO Expert Committee on Food Additives. 1997. Retrieved September 20, 2016.
  27. "Carthamus yellow; In: Compendium of Food Additive Specifications. (FAO Food and Nutrition Paper - 52 Add. 5)". FAO/WHO Expert Committee on Food Additives. 1997. Retrieved April 7, 2022.
  28. "Dyeing with Safflower". wildcolours.co.uk. 19 April 2021. Retrieved 26 January 2022.
  29. Arai, Masanao; Iwamoto Wada, Yoshiko (2010). "BENI ITAJIME: CARVED BOARD CLAMP RESIST DYEING IN RED" (PDF). Textile Society of America Symposium Proceedings. University of Nebraska - Lincoln. Archived from the original on 2 November 2021.
  30. Lee, Tim (7 June 2020). "Safflower oil hailed by scientists as possible recyclable, biodegradable replacement for petroleum". ABC News. Landline. Australian Broadcasting Corporation. Retrieved 7 June 2020.

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