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Napa cabbage

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(Redirected from Brassica pekinensis) Subspecies of flowering plant "Hakusai" redirects here. Not to be confused with Hokusai.

Napa cabbage
SpeciesBrassica rapa
Cultivar groupPekinensis Group
OriginChina, before the 15th century

Napa cabbage (Brassica rapa subsp. pekinensis, or Brassica rapa Pekinensis Group) is a type of Chinese cabbage originating near the Beijing region of China that is widely used in East Asian cuisine. Since the 20th century, it has also become a widespread crop in Europe, the Americas, and Australia. In much of the world, it is referred to as "Chinese cabbage".

Names

Regional names
Napa cabbages
Chinese name
Chinese大白菜
Literal meaningbig white vegetable
Hanyu Pinyindàbáicài
Wade–Gilesta-pai-ts'ai
Cantonese name
Traditional Chinese紹菜
Yale Romanizationsiuh choi
Jyutpingsiu coi
Korean name
Hangul배추
Revised Romanizationbaechu
McCune–Reischauerpaech'u
Japanese name
Kanji白菜
Hiraganaはくさい
Revised Hepburnhakusai

The word "napa" in the name napa cabbage comes from colloquial and regional Japanese, where nappa (菜っ葉) refers to the leaves of any vegetable, especially when used as food. The Japanese name for this specific variety of cabbage is hakusai (白菜), a Sino-Japanese reading of the Chinese name báicài (白菜), literally "white vegetable". The Korean name for napa cabbage, baechu (배추), is a nativized word from the Sino-Korean reading, baekchae, of the same Chinese character sets. Today in Mandarin Chinese, napa cabbage is known as dàbáicài (大白菜), literally "big white vegetable", as opposed to the "small white vegetable" that is known in English as bok choy.

Outside of Asia, this vegetable is also referred to as Chinese cabbage or sometimes celery cabbage. It is also known as siu choy (Cantonese 紹菜), wombok in Australia and wong bok or won bok in New Zealand, all corruptions of wong ngaa baak (Cantonese 黃芽白). In the United Kingdom this vegetable is known as Chinese leaf or winter cabbage, and in the Philippines as petsay (from Hokkien, 白菜 (pe̍h-tshài)) or pechay baguio. Another name used in English is petsai or pe-tsai. In Ukraine it is called pekins'ka kapusta (пекінська капуста), and in Poland - kapusta pekińska, literally "Beijing cabbage". In Sweden it is known as salladskål (salad cabbage) or sometimes kinakål (china cabbage).

Origin

The first records of napa cabbage cultivation date back to the 15th century in the Yangtze River region in China. From China it later spread to Korea and Japan. Beginning in the 19th century with the Chinese diaspora, it was distributed to the rest of Asia, Europe, America as well as Australia. During the 19th century napa cabbage was first introduced to America from Europe and the supply of seed materials from Europe continued until World War I. After the blockade of the European seed supply, US government research institutes and the seed industry developed new seed stocks for vegetable crops. Oregon and California were the cabbage seed production areas during that time. Today it is cultivated and eaten throughout the world.

Napa cabbage might have originated from natural hybridization between turnip (Brassica rapa subsp. rapa) and pak-choi (Brassica rapa subsp. chinensis). Artificial crosses between these two subspecies, as well as molecular data, strengthen this suggestion.

Description

The leaves, which are the harvested organ, lay side by side densely, are lime green coloured with white leaf veins and have a smooth surface. The vegetable has an oval form and weighs 1 to 3 kg (2.2 to 6.6 lb). The leaves are organized in basal rosettes. The flowers are yellow and have a typical Brassicaceae cross-linked arrangement, hence the name Crucifereae, which means “cross-bearing”. Because the plant is harvested in an earlier stage than flowering, normally the flowers are not visible on the field.

It develops similar to other head-forming leaf vegetables, for example cabbage lettuce. The chronological stages on the BBCH-scale are germination, leaf formation, vegetative growth (head-forming), appearance of the sprout that bears the flowers, flowering, fruit development, seed ripening and senescence.

Napa cabbage is an annual plant that reaches the generative period in the first year. It must be consumed in its vegetative period, so there is a challenge in cultivation not to reach the stadium of flowering. The stadium of flowering can be initiated by cold temperatures or the length of the day. Napa cabbage reproduces mainly by allogamy. Napa cabbage produces more leaves, bigger leaves and a higher biomass under long day conditions than under short day conditions.

Uses

Culinary

Napa cabbage and tofu soup
Chinese cabbage, raw
Nutritional value per 100 g (3.5 oz)
Energy68 kJ (16 kcal)
Carbohydrates3.2 g
Dietary fiber1.2 g
Fat0.2 g
Protein1.2 g
Vitamins and minerals
VitaminsQuantity %DV
Vitamin C30% 27 mg
MineralsQuantity %DV
Calcium6% 77 mg
Iron2% 0.31 mg
Magnesium3% 13 mg
Sodium0% 9 mg
Percentages estimated using US recommendations for adults, except for potassium, which is estimated based on expert recommendation from the National Academies.

Napa cabbage is a cool season annual vegetable which grows best when the days are short and mild. The plant grows to an oblong shaped head consisting of tightly arranged crinkly, thick, light-green leaves with prominent white veins. Innermost layer leaves feature light yellow color.

Napa cabbage belongs to the family Brassicaceae, commonly called the mustard or cabbage family. As a cruciferous plant it is closely related to species of Brassica like broccoli, bok choy and cauliflower.

Napa cabbage is widely used in China, Japan, and Korea. Napa cabbage is used as a sign of prosperity in China, and often appears as a symbol in glass and porcelain figures. The Jadeite Cabbage sculpture of Taiwan's National Palace Museum is a carving of a napa cabbage variety. It is also found in North American and Australian cities after Asian immigrants settled in the regions.

Fermented Napa cabbage (suan cai/sauerkraut) is a traditional food in Northeast China.

In Korean cuisine, napa cabbage is the main ingredient of baechu-kimchi, the most common type of kimchi, but is also eaten raw as a wrap for pork or oysters, dipped in gochujang. The outer, tougher leaves are used in soups. It can be used in stir-fry with other ingredients, such as tofu, mushroom and zucchini. It is also eaten with hot pot meals. Napa cabbage is particularly popular in South Korea's northern Gangwon Province. In European, American and Australian kitchens, it is more common to eat it cooked or raw as salad.

The vegetable is rich in vitamin C (26 mg/100g) and has a fair amount of calcium (40 mg/100g). It tastes mildly aromatic.

Cultivation

Napa cabbage can be cultivated in many different areas of the world, the main area of diversification represents Asia.

Soil requirements

Napa cabbage requires deeply loosened medium heavy soil. There must not be any compaction due to plowing. The crop achieves particularly high yields on sandy loam. Extremely sandy or claylike soils are not suitable. The crop prefers a pH range from 6.0 to 6.2, a high organic matter content and good moisture holding capacity of the soil. Lower pH or droughty soil can lead to calcium or magnesium deficiency and internal quality defects.

Climate requirements

Napa cabbage needs much water during the whole growth period. Often an irrigation system is needed, especially for August and September. The required amount of water depends on the stage of crop growth, weather conditions, and soil type. The most critical stage after establishment is when the head is forming. Inadequate water at this time will result in reduced uptake of calcium. This condition causes dead leaf tips within the head which makes it unmarketable. During head formation, 25 to 40 mm (1 to 1+1⁄2 in) of water per week is needed to maintain sustained growth rates.

Temperature requirements are low. Temperatures below 0 °C (32 °F) are tolerated for short time periods; persistent frosts below −5 °C (23 °F) are not endured. Too low temperature can induce premature bolting. The plants perform best under temperatures between 13 and 21 °C (55 and 70 °F), but depending on the cultivar.

Seedbed requirements & sowing

Napa cabbage has very small seeds with a thousand kernel weight of about 2.5 to 2.8 g. For professional cultivation it is recommended to use disinfected seeds to prevent onset diseases. With the single-grain sowing technique, about 400 to 500 g of seeds per hectare is required; with the normal sowing technique, about 1 kg per hectare. If the normal sowing technique is used, the seedlings must be thinned out after two to four weeks. The seeds should be deposited 1 to 2 cm (0.39 to 0.79 in) deep, with a row width of 40 to 45 cm (16 to 18 in) and 25 to 30 cm (9.8 to 11.8 in) distance between the seeds.

The seedlings can be grown in the greenhouse and then transplanted into the field after two to three weeks. Earlier harvest can be achieved with this method. Seventy thousand to 80,000 seedlings per hectare are required. The transplanting method is normally used for the spring crop and the seeding technique for the fall crop.

Fertilization, field management

The nutrient removal of napa cabbage is high:

  • 150–200 kg N per hectare
  • 80–120 kg P2O5 per hectare
  • 180–250 kg K2O per hectare
  • 110–150 kg Ca per hectare
  • 20–40 kg Mg per hectare

Fertilizer recommendations are in the range of the nutrient removal. Organic fertilizer must be applied before sowing due to the short cultivation time of napa cabbage and the slow availability of organic fertilizers. Synthetic N fertilizer should be applied in three equal doses. The last application must happen before two thirds of the cultivation time is over to avoid quality losses during storage.

Weeds should be controlled mechanically or chemically.

Harvest, storage and yield

Harvested napa cabbage being loaded on a truck in Tonghai County, Yunnan

Napa cabbage can be harvested 8–12 weeks after sowing. The harvest work is mostly done by hand. The plant is cut 2.5 cm (0.98 in) above the ground. It is usual to harvest several times per field to achieve consistent cabbage quality. Cabbages will keep in good condition for three to four months in cool stores at 0–1 °C (32–34 °F) and 85 to 90 percent relative humidity. Napa cabbage achieves a yield of 4 to 5 kg/m.

Breeding

Brassica rapa species are diploid and have 10 chromosomes. A challenge for breeding of napa cabbage is the variable self-incompatibility. The self-incompatibility activity was reported to change by temperature and humidity. In vitro pollination with 98% relative humidity proved to be the most reliable as compared to greenhouse pollination.

A lot of work has already been done on breeding of napa cabbage. In the 21st century, 880 varieties of Napa cabbage were registered by the Korea Seed and Variety Service.

Breeding of napa cabbage was started by the Korean government research station of horticultural demonstration in 1906 to overcome starvation. As napa cabbage and radish are the main vegetables for kimchi, research focused on increasing yield. The most important person for this process was Dr. Woo Jang-choon who bred hybrid cultivars with self-incompatibility and contributed to commercial breeding by developing valuable materials and educating students. The main purpose of the hybrid cultivar was high yield and year-round production of napa cabbage after 1960.

To enable year round production of napa cabbage, it has to be modified to tolerate high and low temperatures. Normally, sowing in the late summer and harvesting in late autumn can produce high quality vegetables. As an example, a summer cultivar called “Nae-Seo-beak-ro” was developed 1973 by a commercial seed company. It tolerates high temperatures, could endure high humidity in the monsoon, and showed resistance to viral disease, soft rot and downy mildew. The low temperature in early spring reduces the quality of the vegetable and it cannot be used for kimchi. In the 1970s the developing of winter cultivars started. The majority of new cultivars could not endure the cold winter conditions and disappeared. The cultivar “Dong-Pung” (meaning “east wind”) was developed in 1992 and showed a high resistance to cold temperature. It is mostly used in Korea, where fresh napa cabbage is nowadays cultivated year round.

In the 1970s, one seed company developed the rose-shape heading variety while other seed companies focused on the semi-folded heading type. As a result of continuous breeding in the commercial seed companies and the government research stations, farmers could now select what they wanted from among various high quality hybrids of Chinese cabbage. The fall season cultivar 'Yuki', with white ribs and tight leaf folding, gained the RHS's Award of Garden Merit (AGM) in 2003.

In 1988, the first cultivar with yellow inner leaf was introduced. This trait has prevailed until today.

A very important breeding aim is to get varieties with resistance to pests and diseases. There exist varieties with resistance to turnip mosaic virus but as mentioned above, there exist numerous other diseases. There have been attempts to breed varieties with clubroot resistance or powdery mildew resistance but the varieties failed due to bad leaf texture traits or broken resistances.

Pests and diseases

Fungal diseases

Alternaria diseases are caused by the organisms Alternaria brassicae, Alternaria brassicicola and Alternaria japonica. Their English names are black spot (not to be confused with midrib 'pepper spots' which are physiological in origin and often result from improper storage), pod spot, gray leaf spot, dark leaf spot or Alternaria blight. The symptoms can be seen on all aboveground plant parts as dark spots. The infected plants are shrivelled and smaller than normal. Alternaria diseases infect almost all brassica plants, the most important hosts are oilseed brassicas. The fungus is a facultative parasite, what means that it can survive on living hosts as well as on dead plant tissue. Infected plant debris is in most circumstances the primary source of inoculum. The spores can be dispersed by wind to host plants in the field or to neighbouring brassica crops. This is why cross infections often occur in areas where different brassica crops are cultivated in close proximity. The disease spreads especially fast when the weather is wet and the plants have reached maturity. Alternaria brassicae is well adapted to temperate regions while Alternaria brassicicola occurs primarily in warmer parts of the world. Temperature requirement for Alternaria japonica is intermediate. There exist some wild accessions of Brassica rapa subsp. pekinensis with resistance to Alternaria brassicae but not on commercial cultivars. These resistances should be included to breeding programmes. Alternaria epidemics are best avoided by management practices like at least 3 years non-host crops between brassica crops, incorporation of plant debris into the soil to accelerate decomposition and usage of disease-free seeds.

Anhracnose is a brassica disease caused by Colletotrichum higginsianum that is especially damaging on napa cabbage, pak choi, turnip, rutabaga and tender green mustard. The symptoms are dry pale gray to straw spots or lesions on the leaves. The recommended management practices are the same as for Alternaria diseases.

Black root is a disease that infects mainly radish, but it also occurs on many other brassica vegetables inclusively napa cabbage. It caused by the fungus Aphanomyces raphani. The pathogen can persist for long times in the soil, therefore crop rotations are an essential management tool.

White leaf spot is found primarily in temperate climate regions and is important on vegetable brassicas and oilseed rape. The causal organism is Mycosphaerella capsellae. The symptoms are white spots on leaves, stems and pods and can thus easily be confused with those of downy mildew. The disease spreads especially fast with rain or moisture and temperature is between 10 and 15 °C (50 and 59 °F).

Yellows, also called Fusarium wilt, is another Brassica disease that infects oilseed rape, cabbage, mustards, Napa cabbage and other vegetable brassicas. It is only a problem in regions with warm growing seasons where soil temperatures are in the range of 18 to 32 °C. The causal organism is Fusarium oxysporum f. sp. conlutinans. Napa cabbage is relatively tolerant to the disease; mostly the only external symptoms are yellowing of lower, older leaves. The disease is soil borne and can survive for many years in the absence of a host. Most cruciferous weeds can serve as alternate hosts.

Damping-Off is a disease in temperate areas caused by soil inhabiting oomycetes like Phytophthora cactorum and Pythium spp. The disease concerns seedlings, which often collapse and die.

Other diseases that infect napa cabbage:

Bacterial diseases

Bacterial soft rot is considered one of the most important diseases of vegetable brassicas. The disease is particularly damaging in warm humid climate. The causal organisms are Erwinia carotovora var. carotovora and Pseudomonas marginalis pv. marginalis. The rot symptoms can occur in the field, on produce transit or in storage. Bacteria survive mainly on plant residues in the soil. They are spread by insects and by cultural practices, such as irrigation water and farm machinery. The disease is tolerant to low temperatures; it can spread in storages close to 0 °C, by direct contact and by dripping onto the plants below. Bacterial soft rot is more severe on crops which have been fertilized too heavily with nitrogen, had late nitrogen applications, or are allowed to become over-mature before harvesting.

Black rot, the most important disease of vegetable brassicas, is caused by Xanthomonas campestris pv. campestris.

Virus diseases

source:

Insect pests

source:

Other pests and diseases

Aster yellows is a disease caused by a phytoplasm.

Nematodes are disease agents that are often overlooked but they can cause considerable yield losses. The adult nematodes have limited active movement but their eggs contained within cysts (dead females) are readily spread with soil, water, equipment or seedlings.

Parasitic nematode species that cause damage on napa cabbage:

See also

References

  1. "Oxford English Dictionary nappa, n.2". Retrieved 14 October 2010.
  2. "Chi′nese cab′bage". Retrieved 20 January 2015.
  3. "Chinese Cabbage". chinesefood.about.com. Retrieved 20 January 2015.
  4. "Wombok". 7 April 2022.
  5. "黃芽白 (Wong4 ngaa4 baak6 | ) : Napa cabbage; chinese cabbage - CantoDict".
  6. Tan, Terry. A Little Chinese Cookbook. Chronicle Books. p. 51.
  7. Afable, Patricia O. (2004). Japanese pioneers in the northern Philippine highlands: a centennial tribute, 1903-2003. Filipino-Japanese Foundation of Northern Luzon, Inc. p. 116. ISBN 978-971-92973-0-7.
  8. Toxopeus, H & Baas, J (2004) Brassica rapa L.. - In: Grubben, G.J.H. & Denton, O.A. (2004) Plant Resources of Tropical Africa 2. Vegetables. PROTA Foundation, Wageningen; Backhuys, Leiden; CTA, Wageningen. - p.146-151.
  9. Growing the Peking cabbage (in Russian)
  10. ^ Genetics, Genomics and Breeding of Crop Plants (2011) N. Ramchiary, S. Park, X. P. Lim: Classical Breeding and Genetic Analysis of Vegetable Brassicas. Book 2. Clemson University, USA
  11. ^ Sadowski, J., & Kole, C. (2011). Genetics, genomics and breeding of vegetable brassicas. Enfield: Science Publishers.
  12. W. Franke (1976) Nutzpflanzenkunde. - Georg Thieme Verlag, Stuttgart, Germany
  13. Feller, C., Bleiholder, H., Buhr, L., Hack, H., Hess, M., Klose, R., et al. (1995). BBCH-Codierung der phänologischen Entwicklungsstadien von Blattgemüse (kopfbildend). In U. Meier, Entwicklungsstadien mono- und dikotyler Pflanzen: BBCH Monografie (S. 120). Biologische Bundesanstalt für Land und Forstwirtschaft.
  14. ^ Buschbaum, H., & Heinen, B. (1978). Chinakohl. Bonn: Rheinischer Landwirtschafts-Verlag.
  15. Nerlich, K., Pfennig, J., Kleemann, G., Feike, T., Graeff, S., Claupein, W., et al. (2009). Beschreibung von Wachstum und Entwicklung bei Chinakohl (Brassica rapa L. var. pekinensis) in Abhängigkeit von Temperatur und Tageslänge - Basisdaten zur Modellierung mit DSSAT. 45. Gartenbauwissenschaftliche Tagung, (S. 158). Humboldt-Universität zu Berlin.
  16. United States Food and Drug Administration (2024). "Daily Value on the Nutrition and Supplement Facts Labels". FDA. Archived from the original on 27 March 2024. Retrieved 28 March 2024.
  17. National Academies of Sciences, Engineering, and Medicine; Health and Medicine Division; Food and Nutrition Board; Committee to Review the Dietary Reference Intakes for Sodium and Potassium (2019). "Chapter 4: Potassium: Dietary Reference Intakes for Adequacy". In Oria, Maria; Harrison, Meghan; Stallings, Virginia A. (eds.). Dietary Reference Intakes for Sodium and Potassium. The National Academies Collection: Reports funded by National Institutes of Health. Washington, DC: National Academies Press (US). pp. 120–121. doi:10.17226/25353. ISBN 978-0-309-48834-1. PMID 30844154. Retrieved 5 December 2024.
  18. "Napa cabbage nutrition facts". Retrieved 20 January 2015.
  19. Cartea, M.E. (2011). Genetics, Genomics and Breeding of Crop Plants. Clemson University.
  20. ^ Genetics, Genomics and Breeding of Crop Plants (2011) Clemson University, USA Cartea M. E., Lema M., Francisco M, Velasco P.
  21. ^ Lee, Cecilia Hae-Jin (22 May 2012). Frommer's South Korea. John Wiley & Sons. p. 326. ISBN 978-1-118-33363-1.
  22. Klein, Donna (4 December 2012). The Chinese Vegan Kitchen: More Than 225 Meat-free, Egg-free, Dairy-free Dishes from the Culinary Regions of China. Penguin Group US. p. 30. ISBN 978-1-101-61361-0.
  23. Yang X, Hu W, Xiu Z, Jiang A, Yang X, Saren G, Ji Y, Guan Y, Feng K (17 July 2020). "Effect of salt concentration on microbial communities, physicochemical properties and metabolite profile during spontaneous fermentation of Chinese northeast sauerkraut". Journal of Applied Microbiology. 129 (6): 1458–1471. doi:10.1111/jam.14786. PMC 6723656. PMID 32677269.
  24. Vongerichten, Marja (2 August 2011). The Kimchi Chronicles: Korean Cooking for an American Kitchen. Rodale. pp. 37–42. ISBN 978-1-60961-128-6.
  25. Michael Todt (1989) Untersuchungen zur Mikroflora des lagernden Chinakohls (Brassica pekinensis Rupr.). Dissertation, University Kiel, Germany
  26. Deutschen Forschungsanstalt für Lebensmittelchemie, 5. Auflage, (1994) Souci/Fachmann/Kraut.
  27. ^ Cook, W. P., & Smith, P. (February 1996). Oriental Cabbage Production. Hort. Leaflet 68, S. 1-4
  28. ^ Baggaley, A., Barter, G., Caldon, H., Rosenfeld, R. L., Ruch, P., Vowles, D., et al. (2011). RHS Good fruit & veg guide. London: Dorling Kindersley Limited.
  29. ^ Rimmer, R. S., Shattuck, V. I., & Buchwaldt, L. (2007). Compendium of Brassica Diseases. St. Paul: American Phytopathological Society.
  30. Ackermann, I., Funk, M., Hintze, C., Joachimi, A., Potzkai, G., Rieger, W., et al. (1993). Feldgemüsebau : Buschbohnen, Chinakohl, Dicke Bohnen, Erbsen, Einlegegurken, Grünkohl, Knollensellerie, Kohlrabi, Kopfkohl, Kopfsalat, Möhren, Porree, Rote Beete, Schälgurken, Spargel, Spinat, Zwiebeln . Münster-Hiltrup: Landwirtschaftsverlag.
  31. "Brassica rapa (Pekinensis Group) 'Yuki'". Royal Horticultural Society. November 2018. Retrieved 23 November 2019.
  32. Kirk, W. D. (1992). Insects on cabbages and oilseed rape. Richmond Publishing.
  33. Li, Xiao-Ming; Zhu, Xiu-Yun; Wang, Zhi-Qiang; Wang, Yi; He, Peng; Chen, Geng; Sun, Liang; Deng, Dao-Gui; Zhang, Ya-Nan (2 December 2015). "Candidate chemosensory genes identified in Colaphellus bowringi by antennal transcriptome analysis". BMC Genomics. 16: 1028. doi:10.1186/s12864-015-2236-3. PMC 4667470. PMID 26626891.

External links

Brassica
Species
Cultivars
Taxon identifiers
Brassica rapa subsp. pekinensis
Sinapis pekinensis
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