The orange is the fruit of the citrus species Citrus × sinensis in the family Rutaceae. It is also called sweet orange, to distinguish it from the related Citrus × aurantium, referred to as bitter orange. The sweet orange reproduces asexually (apomixis through nucellar embryony); varieties of sweet orange arise through mutations.
The orange is a hybrid between pomelo (Citrus maxima) and mandarin (Citrus reticulata). The chloroplast genome, and therefore the maternal line, is that of pomelo. The sweet orange has had its full genome sequenced.
Sweet orange originated in ancient China and the earliest mention of the sweet orange was in Chinese literature in 314 BC. As of 1987[update], orange trees were found to be the most cultivated fruit tree in the world. Orange trees are widely grown in tropical and subtropical climates for their sweet fruit. The fruit of the orange tree can be eaten fresh, or processed for its juice or fragrant peel. As of 2012[update], sweet oranges accounted for approximately 70% of citrus production.
Botanical information and terminology
All citrus trees belong to the single genus Citrus and remain almost entirely interfertile. This includes grapefruits, lemons, limes, oranges, and various other types and hybrids. As the interfertility of oranges and other citrus has produced numerous hybrids and cultivars, and bud mutations have also been selected, citrus taxonomy is fairly controversial, confusing or inconsistent. The fruit of any citrus tree is considered a hesperidium, a kind of modified berry; it is covered by a rind originated by a rugged thickening of the ovary wall.
Different names have been given to the many varieties of the genus. Orange applies primarily to the sweet orange – Citrus sinensis (L.) Osbeck. The orange tree is an evergreen, flowering tree, with an average height of 9 to 10 m (30 to 33 ft), although some very old specimens can reach 15 m (49 ft). Its oval leaves, alternately arranged, are 4 to 10 cm (1.6 to 3.9 in) long and have crenulate margins. Sweet oranges grow in a range of different sizes, and shapes varying from spherical to oblong. Inside and attached to the rind is a porous white tissue, the white, bitter mesocarp or albedo (pith). The orange contains a number of distinct carpels (segments) inside, typically about ten, each delimited by a membrane, and containing many juice-filled vesicles and usually a few seeds (pips). When unripe, the fruit is green. The grainy irregular rind of the ripe fruit can range from bright orange to yellow-orange, but frequently retains green patches or, under warm climate conditions, remains entirely green. Like all other citrus fruits, the sweet orange is non-climacteric. The Citrus sinensis group is subdivided into four classes with distinct characteristics: common oranges, blood or pigmented oranges, navel oranges, and acidless oranges.
Other citrus groups also known as oranges are:
- Mandarin orange (Citrus reticulata) is an original species of citrus, and is a progenitor of the common orange.
- Bitter orange (Citrus aurantium), also known as Seville orange, sour orange (especially when used as rootstock for a sweet orange tree), bigarade orange and marmalade orange. Like the sweet orange, it is a pomelo x mandarin hybrid, but arose from a distinct hybridization event.
- Bergamot orange (Citrus bergamia Risso), grown mainly in Italy for its peel, producing a primary essence for perfumes, also used to flavor Earl Grey tea. It is a hybrid of bitter orange x lemon.
- Trifoliate orange (Poncirus trifoliata), sometimes included in the genus (classified as Citrus trifoliata). It often serves as a rootstock for sweet orange trees and other Citrus cultivars.
An enormous number of cultivars have, like the sweet orange, a mix of pomelo and mandarin ancestry. Some cultivars are mandarin-pomelo hybrids, bred from the same parents as the sweet orange (e.g. the tangor and ponkan tangerine). Other cultivars are sweet orange x mandarin hybrids (e.g. clementines). Mandarin traits generally include being smaller and oblate, easier to peel, and less acidic. Pomelo traits include a thick white albedo (rind pith, mesocarp) that is more closely attached to the segments.
Orange trees generally are grafted. The bottom of the tree, including the roots and trunk, is called rootstock, while the fruit-bearing top has two different names: budwood (when referring to the process of grafting) and scion (when mentioning the variety of orange).
The word orange derives from the Sanskrit word for "orange tree" (नारङ्ग nāraṅga), which in turn derives from a Dravidian root word (from நரந்தம் narandam which refers to Bitter orange in Tamil). The Sanskrit word reached European languages through Persian نارنگ (nārang) and its Arabic derivative نارنج (nāranj).
The word entered Late Middle English in the fourteenth century via Old French orenge (in the phrase pomme d'orenge). The French word, in turn, comes from Old Provençal auranja, based on Arabic nāranj. In several languages, the initial n present in earlier forms of the word dropped off because it may have been mistaken as part of an indefinite article ending in an n sound—in French, for example, une norenge may have been heard as une orenge. This linguistic change is called juncture loss. The color was named after the fruit, and the first recorded use of orange as a color name in English was in 1512.
As Portuguese merchants were presumably the first to introduce the sweet orange to some regions of Europe, in several modern Indo-European languages the fruit has been named after them. Some examples are Albanian portokall, Bulgarian портокал (portokal), Greek πορτοκάλι (portokali), Macedonian portokal, Persian پرتقال (porteghal), Turkish portakal and Romanian portocală. Related names can be found in other languages, such as Arabic البرتقال (bourtouqal), Georgian ფორთოხალი (pʰortʰoxali) and Amharic birtukan. Also, in some of the Italian regional languages (e.g. Neapolitan), an orange is portogallo or purtuallo, literally "(the) Portuguese (one)", in contrast to the Italian arancia.
In other Indo-European languages, the words for orange allude to the eastern origin of the fruit and can be translated literally as "apple from China". Some examples are German Apfelsine (alternative name for Orange and common in northern Germany), Dutch appelsien and sinaasappel, Swedish apelsin, Russian апельсин (apelsin) and Norwegian appelsin. A similar case is Puerto Rican Spanish china.
The sweet orange is not a wild fruit, having arisen in domestication from a cross between a non-pure mandarin orange and a hybrid pomelo that had a substantial mandarin component. Since its chloroplast DNA is that of pomelo, it was likely the hybrid pomelo, perhaps a BC1 pomelo backcross, that was the maternal parent of the first orange. Based on genomic analysis, the relative proportions of the ancestral species in the sweet orange is approximately 42% pomelo and 58% mandarin. All varieties of the sweet orange descend from this original cross, differing only by mutations selected for during agricultural propagation. Sweet oranges have a distinct origin from the bitter orange, which arose independently, perhaps in the wild, from a cross between pure mandarin and pomelo parents. The earliest mention of the sweet orange in Chinese literature dates from 314 B.C.
In Europe, the Moors introduced the orange to Spain which was known as Al-Andalus, modern Andalusia, with large scale cultivation starting in the 10th century as evidenced by complex irrigation techniques specifically adapted to support orange orchards. Citrus fruits — among them the bitter orange — were introduced to Sicily in the 9th century during the period of the Emirate of Sicily, but the sweet orange was unknown until the late 15th century or the beginnings of the 16th century, when Italian and Portuguese merchants brought orange trees into the Mediterranean area. Shortly afterward, the sweet orange quickly was adopted as an edible fruit. It also was considered a luxury item and wealthy people grew oranges in private conservatories, called orangeries. By 1646, the sweet orange was well known throughout Europe. Louis XIV of France had a great love of orange trees, and built the grandest of all royal Orangeries at the Palace of Versailles. At Versailles potted orange trees in solid silver tubs were placed throughout the rooms of the palace, while the Orangerie allowed year-round cultivation of the fruit to supply the court. When Louis condemned his finance minister, Nicolas Fouquet, in 1664, part of the treasures which he confiscated were over 1,000 orange trees from Fouquet's estate at Vaux-le-Vicomte.
Spanish travelers introduced the sweet orange into the American continent. On his second voyage in 1493, Christopher Columbus may have planted the fruit in Hispaniola. Subsequent expeditions in the mid-1500s brought sweet oranges to South America and Mexico, and to Florida in 1565, when Pedro Menéndez de Avilés founded St Augustine. Spanish missionaries brought orange trees to Arizona between 1707 and 1710, while the Franciscans did the same in San Diego, California, in 1769. An orchard was planted at the San Gabriel Mission around 1804 and a commercial orchard was established in 1841 near present-day Los Angeles. In Louisiana, oranges were probably introduced by French explorers.
Archibald Menzies, the botanist and naturalist on the Vancouver Expedition, collected orange seeds in South Africa, raised the seedlings onboard and gave them to several Hawaiian chiefs in 1792. Eventually, the sweet orange was grown in wide areas of the Hawaiian Islands, but its cultivation stopped after the arrival of the Mediterranean fruit fly in the early 1900s.
Florida farmers obtained seeds from New Orleans around 1872, after which orange groves were established by grafting the sweet orange on to sour orange rootstocks.
The Valencia orange is a late-season fruit, and therefore a popular variety when navel oranges are out of season. This is why an anthropomorphic orange was chosen as the mascot for the 1982 FIFA World Cup, held in Spain. The mascot was named Naranjito ("little orange") and wore the colors of the Spanish national football team.
Hart's Tardiff Valencia
Thomas Rivers, an English nurseryman, imported this variety from the Azores Islands and catalogued it in 1865 under the name Excelsior. Around 1870, he provided trees to S. B. Parsons, a Long Island nurseryman, who in turn sold them to E. H. Hart of Federal Point, Florida.
This cultivar was discovered by A. G. Hamlin near Glenwood, Florida, in 1879. The fruit is small, smooth, not highly colored, and juicy, with a pale yellow colored juice, especially in fruits that come from lemon rootstock. The fruit may be seedless, or may contain a number of small seeds. The tree is high-yielding and cold-tolerant and it produces good quality fruit, which is harvested from October to December. It thrives in humid subtropical climates. In cooler, more arid areas, the trees produce edible fruit, but too small for commercial use.
Trees from groves in hammocks or areas covered with pine forest are budded on sour orange trees, a method that gives a high solids content. On sand, they are grafted on rough lemon rootstock. The Hamlin orange is one of the most popular juice oranges in Florida and replaces the Parson Brown variety as the principal early-season juice orange. This cultivar is now[needs update] the leading early orange in Florida and, possibly, in the rest of the world.
Other varieties of common oranges
- Bali: grown in Bali, Indonesia. Larger than other orange
- Belladonna: grown in Italy
- Berna: grown mainly in Spain
- Biondo Comune ("ordinary blond"): widely grown in the Mediterranean basin, especially in North Africa, Egypt, Greece (where it is called "koines"), Italy (where it is also known as "Liscio"), and Spain; it also is called "Beledi" and "Nostrale"; in Italy, this variety ripens in December, earlier than the competing Tarocco variety
- Biondo Riccio: grown in Italy
- Byeonggyul: grown in Jeju Island, South Korea
- Cadanera: a seedless orange of excellent flavor grown in Algeria, Morocco, and Spain; it begins to ripen in November and is known by a wide variety of trade names, such as Cadena Fina, Cadena sin Jueso, Precoce de Valence ("early from Valencia"), Precoce des Canaries, and Valence san Pepins ("seedless Valencia"); it was first grown in Spain in 1870
- Calabrese or Calabrese Ovale: grown in Italy
- Carvalhal: grown in Portugal
- Castellana: grown in Spain
- Cherry Orange: grown in southern China and Japan
- Clanor: grown in South Africa
- Dom João: grown in Portugal
- Fukuhara: grown in Japan
- Gardner: grown in Florida, this mid-season orange ripens around the beginning of February, approximately the same time as the Midsweet variety; Gardner is about as hardy as Sunstar and Midsweet
- Homosassa: grown in Florida
- Jaffa orange: grown in the Middle East, also known as "Shamouti"
- Jincheng: the most popular orange in China
- Joppa: grown in South Africa and Texas
- Khettmali: grown in Israel and Lebanon
- Kona: a type of Valencia orange introduced in Hawaii in 1792 by Captain George Vancouver; for many decades in the nineteenth century, these oranges were the leading export from the Kona district on the Big Island of Hawaii; in Kailua-Kona, some of the original stock still bears fruit
- Lue Gim Gong: grown in Florida, is an early scion developed by Lue Gim Gong, a Chinese immigrant known as the "Citrus Genius"; in 1888, Lue cross-pollinated two orange varieties – the Hart's late Valencia and the Mediterranean Sweet – and obtained a fruit both sweet and frost-tolerant; this variety was propagated at the Glen St. Mary Nursery, which in 1911 received the Silver Wilder Medal by the American Pomological Society; originally considered a hybrid, the Lue Gim Gong orange was later found to be a nucellar seedling of the Valencia type, which is properly called Lue Gim Gong; since 2006, the Lue Gim Gong variety is grown in Florida, although sold under the general name Valencia
- Macetera: grown in Spain, it is known for its unique flavor
- Malta: grown in Pakistan
- Maltaise Blonde: grown in north Africa
- Maltaise Ovale: grown in South Africa and in California under the names of Garey's or California Mediterranean Sweet
- Marrs: grown in Texas, California and Iran, it is relatively low in acid
- Medan: grown in Medan, Indonesia
- Midsweet: grown in Florida, it is a newer scion similar to the Hamlin and Pineapple varieties, it is hardier than Pineapple and ripens later; the fruit production and quality are similar to those of the Hamlin, but the juice has a deeper color
- Moro Tarocco: grown in Italy, it is oval, resembles a tangelo, and has a distinctive caramel-colored endocarp; this color is the result of a pigment called anthocarpium, not usually found in citruses, but common in red fruits and flowers; the original mutation occurred in Sicily in the seventeenth century
- Mosambi: grown in India and Pakistan, it is so low in acid and insipid that it might be classified as acidless
- Narinja: grown in Andhra, South India
- Parson Brown: grown in Florida, Mexico, and Turkey, it once was a widely grown Florida juice orange, its popularity has declined since new varieties with more juice, better yield, and higher acid and sugar content have been developed; it originated as a chance seedling in Florida in 1865; its fruits are round, medium large, have a thick, pebbly peel and contain 10 to 30 seeds; it still is grown because it is the earliest maturing fruit in the United States, usually maturing in early September in the Valley district of Texas, and from early October to January in Florida; its peel and juice color are poor, as is the quality of its juice
- Pera: grown in Brazil, it is very popular in the Brazilian citrus industry and yielded 7.5 million metric tons in 2005
- Pera Coroa: grown in Brazil
- Pera Natal: grown in Brazil
- Pera Rio: grown in Brazil
- Pineapple: grown in North and South America and India
- Pontianak: oval-shaped orange grown especially in Pontianak, Indonesia
- Premier: grown in South Africa
- Rhode Red: is a mutation of the Valencia orange, but the color of its flesh is more intense; it has more juice, and less acidity and vitamin C than the Valencia; it was discovered by Paul Rhode in 1955 in a grove near Sebring, Florida
- Roble: it was first shipped from Spain in 1851 by Joseph Roble to his homestead in what is now Roble's Park in Tampa, Florida; it is known for its high sugar content
- Queen: grown in South Africa
- Salustiana: grown in North Africa
- Sathgudi: grown in Tamil Nadu, South India
- Seleta, Selecta: grown in Australia and Brazil, it is high in acid
- Shamouti Masry: grown in Egypt; it is a richer variety of Shamouti
- Sunstar: grown in Florida, this newer cultivar ripens in mid-season (December to March) and it is more resistant to cold and fruit-drop than the competing Pineapple variety; the color of its juice is darker than that of the competing Hamlin
- Tomango: grown in South Africa
- Verna: grown in Algeria, Mexico, Morocco, and Spain
- Vicieda: grown in Algeria, Morocco, and Spain
- Westin: grown in Brazil
- Xã Đoài orange: grown in Vietnam
Navel oranges are characterized by the growth of a second fruit at the apex, which protrudes slightly and resembles a human navel. They are primarily grown for human consumption for various reasons: their thicker skin makes them easy to peel, they are less juicy and their bitterness – a result of the high concentrations of limonin and other limonoids – renders them less suitable for juice. Their widespread distribution and long growing season have made navel oranges very popular. In the United States, they are available from November to April, with peak supplies in January, February, and March.
According to a 1917 study by Palemon Dorsett, Archibald Dixon Shamel and Wilson Popenoe of the United States Department of Agriculture (USDA), a single mutation in a Selecta orange tree planted on the grounds of a monastery near Bahia, Brazil, probably yielded the first navel orange between 1810 and 1820. Nevertheless, a researcher at the University of California, Riverside, has suggested that the parent variety was more likely the Portuguese navel orange (Umbigo), described by Antoine Risso and Pierre Antoine Poiteau in their book Histoire naturelle des orangers ("Natural History of Orange Trees", 1818–1822). The mutation caused the orange to develop a second fruit at its base, opposite the stem, embedded within the peel of the primary orange. Navel oranges were introduced in Australia in 1824 and in Florida in 1835. In 1870, twelve cuttings of the original tree were transplanted to Riverside, California, where the fruit became known as "Washington". This cultivar was very successful, and rapidly spread to other countries. Because the mutation left the fruit seedless and, therefore, sterile, the only method to cultivate navel oranges was to graft cuttings onto other varieties of citrus trees. The California Citrus State Historic Park and the Orcutt Ranch Horticulture Center preserve the history of navel oranges in Riverside.
Today, navel oranges continue to be propagated through cutting and grafting. This does not allow for the usual selective breeding methodologies, and so all navel oranges can be considered fruits from that single, nearly two-hundred-year-old tree: they have exactly the same genetic make-up as the original tree and are, therefore, clones. This case is similar to that of the common yellow seedless banana, the Cavendish, or that of the Granny Smith apple. On rare occasions, however, further mutations can lead to new varieties.
Cara cara oranges (also called "red navel") are a type of navel orange grown mainly in Venezuela, South Africa and in California's San Joaquin Valley. They are sweet and comparatively low in acid, with a bright orange rind similar to that of other navels, but their flesh is distinctively pinkish red. It is believed that they have originated as a cross between the Washington navel and the Brazilian Bahia navel, and they were discovered at the Hacienda Cara Cara in Valencia, Venezuela, in 1976.
- Bahianinha or Bahia
- Dream Navel
- Late Navel
- Washington or California Navel
Blood oranges are a natural mutation of C. sinensis, although today the majority of them are hybrids. High concentrations of anthocyanin give the rind, flesh, and juice of the fruit their characteristic dark red color. Blood oranges were first discovered and cultivated in Sicily in the fifteenth century. Since then they have spread worldwide, but are grown especially in Spain and Italy under the names of sanguina and sanguinella, respectively.
The blood orange, with its distinct color and flavor, is generally considered favorably as a juice, and has found a niche as an ingredient variation in traditional Seville marmalade.
Other varieties of blood oranges
- Maltese: a small and highly colored variety, generally thought to have originated in Italy as a mutation and cultivated there for centuries. It also is grown extensively in southern Spain and Malta. It is used in sorbets and other desserts due to its rich burgundy color.
- Moro: originally from Sicily, it is common throughout Italy. This medium-sized fruit has a relatively long harvest, which lasts from December to April.
- Sanguinelli: a mutant of the Doble Fina, discovered in 1929 in Almenara, in the Castellón province of Spain. It is cultivated in Sicily.
- Scarlet navel: a variety with the same mutation as the navel orange.
- Tarocco: a relatively new variety developed in Italy. It begins to ripen in late January.
Acidless oranges are an early-season fruit with very low levels of acid. They also are called "sweet" oranges in the United States, with similar names in other countries: douce in France, sucrena in Spain, dolce or maltese in Italy, meski in North Africa and the Near East (where they are especially popular), şeker portakal ("sugar orange") in Turkey, succari in Egypt, and lima in Brazil.
The lack of acid, which protects orange juice against spoilage in other groups, renders them generally unfit for processing as juice, so they are primarily eaten. They remain profitable in areas of local consumption, but rapid spoilage renders them unsuitable for export to major population centres of Europe, Asia, or the United States.
Sweet oranges have also given rise to a range of hybrids, notably the grapefruit, which arose from a sweet orange x pomelo backcross. A spontaneous backcross of the grapefruit and sweet orange then resulted in the orangelo. Spontaneous and engineered backcrosses between the sweet orange and mandarin oranges or tangerines has produced a group collectively known as tangors, which includes the clementine and Murcott. More complex crosses have also been produced. The so-called Ambersweet orange is actually a complex sweet orange x (Orlando tangelo x clementine) hybrid, legally designated a sweet orange in the United States so it can be used in orange juices. The citranges are a group of intergeneric sweet orange x trifoliate orange hybrids.
The taste of oranges is determined mainly by the relative ratios of sugars and acids, whereas orange aroma derives from volatile organic compounds, including alcohols, aldehydes, ketones, terpenes, and esters. Bitter limonoid compounds, such as limonin, decrease gradually during development, whereas volatile aroma compounds tend to peak in mid– to late–season development. Taste quality tends to improve later in harvests when there is a higher sugar/acid ratio with less bitterness. As a citrus fruit, the orange is acidic, with pH levels ranging from 2.9 to 4.0.
|Nutritional value per 100 g (3.5 oz)|
|Energy||197 kJ (47 kcal)|
|Dietary fiber||2.4 g|
|Vitamin A equiv.|
|Pantothenic acid (B5)|
|†Percentages are roughly approximated using US recommendations for adults. |
Source: USDA Nutrient Database
Nutritional value and phytochemicals
As with other citrus fruits, orange pulp is an excellent source of vitamin C, providing 64% of the Daily Value in a 100 g serving (right table). Numerous other essential nutrients are present in low amounts (right table).
Oranges contain diverse phytochemicals, including carotenoids (beta-carotene, lutein and beta-cryptoxanthin), flavonoids (e.g. naringenin) and numerous volatile organic compounds producing orange aroma, including aldehydes, esters, terpenes, alcohols, and ketones.
The United States Department of Agriculture (USDA) has established the following grades for Florida oranges, which primarily apply to oranges sold as fresh fruit: US Fancy, US No. 1 Bright, US No. 1, US No. 1 Golden, US No. 1 Bronze, US No. 1 Russet, US No. 2 Bright, US No. 2, US No. 2 Russet, and US No. 3. The general characteristics graded are color (both hue and uniformity), firmness, maturity, varietal characteristics, texture, and shape. Fancy, the highest grade, requires the highest grade of color and an absence of blemishes, while the terms Bright, Golden, Bronze, and Russet concern solely discoloration.
Grade numbers are determined by the amount of unsightly blemishes on the skin and firmness of the fruit that do not affect consumer safety. The USDA separates blemishes into three categories:
- General blemishes: ammoniation, buckskin, caked melanose, creasing, decay, scab, split navels, sprayburn, undeveloped segments, unhealed segments, and wormy fruit
- Injuries to fruit: bruises, green spots, oil spots, rough, wide, or protruding navels, scale, scars, skin breakdown, and thorn scratches
- Damage caused by dirt or other foreign material, disease, dryness, or mushy condition, hail, insects, riciness or woodiness, and sunburn.
The USDA uses a separate grading system for oranges used for juice because appearance and texture are irrelevant in this case. There are only two grades: US Grade AA Juice and US Grade A Juice, which are given to the oranges before processing. Juice grades are determined by three factors:
- The juiciness of the orange
- The amount of solids in the juice (at least 10% solids are required for the AA grade)
- The proportion of anhydric citric acid in fruit solids
Like most citrus plants, oranges do well under moderate temperatures—between 15.5 and 29 °C (59.9 and 84.2 °F)—and require considerable amounts of sunshine and water. It has been suggested the use of water resources by the citrus industry in the Middle East is a contributing factor to the desiccation of the region. Another significant element in the full development of the fruit is the temperature variation between summer and winter and, between day and night. In cooler climates, oranges can be grown indoors.
As oranges are sensitive to frost, there are different methods to prevent frost damage to crops and trees when subfreezing temperatures are expected. A common process is to spray the trees with water so as to cover them with a thin layer of ice that will stay just at the freezing point, insulating them even if air temperatures drop far lower. This is because water continues to lose heat as long as the environment is colder than it is, and so the water turning to ice in the environment cannot damage the trees. This practice, however, offers protection only for a very short time. Another procedure is burning fuel oil in smudge pots put between the trees. These devices burn with a great deal of particulate emission, so condensation of water vapour on the particulate soot prevents condensation on plants and raises the air temperature very slightly. Smudge pots were developed for the first time after a disastrous freeze in Southern California in January 1913 destroyed a whole crop.
It is possible to grow orange trees directly from seeds, but they may be infertile or produce fruit that may be different from its parent. For the seed of a commercial orange to grow, it must be kept moist at all times. One approach is placing the seeds between two sheets of damp paper towel until they germinate and then planting them, although many cultivators just set the seeds straight into the soil.
Commercially grown orange trees are propagated asexually by grafting a mature cultivar onto a suitable seedling rootstock to ensure the same yield, identical fruit characteristics, and resistance to diseases throughout the years. Propagation involves two stages: first, a rootstock is grown from seed. Then, when it is approximately one year old, the leafy top is cut off and a bud taken from a specific scion variety, is grafted into its bark. The scion is what determines the variety of orange, while the rootstock makes the tree resistant to pests and diseases and adaptable to specific soil and climatic conditions. Thus, rootstocks influence the rate of growth and have an effect on fruit yield and quality.
Rootstocks must be compatible with the variety inserted into them because otherwise, the tree may decline, be less productive, or die.
Among the several advantages to grafting are that trees mature uniformly and begin to bear fruit earlier than those reproduced by seeds (3 to 4 years in contrast with 6 to 7 years), and that it makes it possible to combine the best attributes of a scion with those of a rootstock.
Canopy-shaking mechanical harvesters are being used increasingly in Florida to harvest oranges. Current canopy shaker machines use a series of six-to-seven-foot-long tines to shake the tree canopy at a relatively constant stroke and frequency.
Normally, oranges are picked once they are pale orange.
Oranges must be mature when harvested. In the United States, laws forbid harvesting immature fruit for human consumption in Texas, Arizona, California and Florida. Ripe oranges, however, often have some green or yellow-green color in the skin. Ethylene gas is used to turn green skin to orange. This process is known as "degreening", also called "gassing", "sweating", or "curing". Oranges are non-climacteric fruits and cannot post-harvest ripen internally in response to ethylene gas, though they will de-green externally.
Commercially, oranges can be stored by refrigeration in controlled-atmosphere chambers for up to twelve weeks after harvest. Storage life ultimately depends on cultivar, maturity, pre-harvest conditions, and handling. In stores and markets, however, oranges should be displayed on non-refrigerated shelves.
Pests and diseases
Cottony cushion scale
The first major pest that attacked orange trees in the United States was the cottony cushion scale (Icerya purchasi), imported from Australia to California in 1868. Within 20 years, it wiped out the citrus orchards around Los Angeles, and limited orange growth throughout California. In 1888, the USDA sent Alfred Koebele to Australia to study this scale insect in its native habitat. He brought back with him specimens of Novius cardinalis, an Australian ladybird beetle, and within a decade the pest was controlled.
Citrus greening disease
The citrus greening disease, caused by the bacterium Liberobacter asiaticum, has been the most serious threat to orange production since 2010. It is characterized by streaks of different shades on the leaves, and deformed, poorly colored, unsavory fruit. In areas where the disease is endemic, citrus trees live for only five to eight years and never bear fruit suitable for consumption. In the western hemisphere, the disease was discovered in Florida in 1998, where it has attacked nearly all the trees ever since. It was reported in Brazil by Fundecitrus Brasil in 2004. As from 2009, 0.87% of the trees in Brazil's main orange growing areas (São Paulo and Minas Gerais) showed symptoms of greening, an increase of 49% over 2008.
The disease is spread primarily by two species of psyllid insects. One of them is the Asian citrus psyllid (Diaphorina citri Kuwayama), an efficient vector of the Liberobacter asiaticum. Generalist predators such as the ladybird beetles Curinus coeruleus, Olla v-nigrum, Harmonia axyridis, and Cycloneda sanguinea, and the lacewings Ceraeochrysa spp. and Chrysoperla spp. make significant contribution to the mortality of the Asian citrus psyllid, which results in 80–100% reduction in psyllid populations. In contrast, parasitism by Tamarixia radiata, a species-specific parasitoid of the Asian citrus psyllid, is variable and generally low in southwest Florida: in 2006, it amounted to a reduction of less than 12% from May to September and 50% in November.
In 2007, foliar applications of insecticides reduced psyllid populations for a short time, but also suppressed the populations of predatory ladybird beetles. Soil application of aldicarb provided limited control of Asian citrus psyllid, while drenches of imidacloprid to young trees were effective for two months or more.
Management of citrus greening disease is difficult and requires an integrated approach that includes use of clean stock, elimination of inoculum via voluntary and regulatory means, use of pesticides to control psyllid vectors in the citrus crop, and biological control of psyllid vectors in non-crop reservoirs. Citrus greening disease is not under completely successful management.
Greasy spot, a fungal disease caused by the Mycosphaerella citri, produces leaf spots and premature defoliation, thus reducing the tree's vigour and yield. Ascospores of M. citri are generated in pseudothecia in decomposing fallen leaves. Once mature, ascospores are ejected and subsequently dispersed by air currents.
|Production of oranges – 2016|
|Country||Production (millions of tonnes)|
|People's Republic of China|
Brazil is the world's leading orange producer, with an output of 17 million tonnes, followed by China, India, and the United States as the four major producers. As almost 99% of the fruit is processed for export, 53% of total global frozen concentrated orange juice production comes from this area and the western part of the state of Minas Gerais. In Brazil, the four predominant orange varieties used for obtaining juice are Hamlin, Pera Rio, Natal, and Valencia.
In the United States, groves are located mainly in Florida, California, and Texas. The majority of California's crop is sold as fresh fruit, whereas Florida's oranges are destined to juice products. The Indian River area of Florida is known for the high quality of its juice, which often is sold fresh in the United States and frequently blended with juice produced in other regions because Indian River trees yield very sweet oranges, but in relatively small quantities.
Production of orange juice between the São Paulo and mid-south Florida areas makes up roughly 85% of the world market. Brazil exports 99% of its production, while 90% of Florida's production is consumed in the United States.
Orange juice is traded internationally in the form of frozen, concentrated orange juice to reduce the volume used so that storage and transportation costs are lower.
Juice and other products
Oranges, whose flavor may vary from sweet to sour, are commonly peeled and eaten fresh or squeezed for juice. The thick bitter rind is usually discarded, but can be processed into animal feed by desiccation, using pressure and heat. It also is used in certain recipes as a food flavoring or garnish. The outermost layer of the rind can be thinly grated with a zester to produce orange zest. Zest is popular in cooking because it contains oils and has a strong flavor similar to that of the orange pulp. The white part of the rind, including the pith, is a source of pectin and has nearly the same amount of vitamin C as the flesh and other nutrients.
Although not as juicy or tasty as the flesh, orange peel is edible and has significant contents of vitamin C, dietary fiber, total polyphenols, carotenoids, limonene and dietary minerals, such as potassium and magnesium.
Products made from oranges
- Orange juice is obtained by squeezing the fruit on a special tool (a juicer or squeezer) and collecting the juice in a tray underneath. This can be made at home or, on a much larger scale, industrially. Brazil is the largest producer of orange juice in the world, followed by the United States, where it is one of the commodities traded on the New York Board of Trade.
- Frozen orange juice concentrate is made from freshly squeezed and filtered orange juice.
- Sweet orange oil is a by-product of the juice industry produced by pressing the peel. It is used for flavoring food and drinks and also in the perfume industry and aromatherapy for its fragrance. Sweet orange oil consists of approximately 90% D-limonene, a solvent used in various household chemicals, such as wood conditioners for furniture and—along with other citrus oils—detergents and hand cleansers. It is an efficient cleaning agent with a pleasant smell, promoted for being environmentally friendly and therefore, preferable to petrochemicals. D-limonene is, however, classified as irritating to the skin and as very toxic to aquatic life in different countries.
- Marmalade preserves are traditionally made with Seville oranges, which are less sweet. All parts of the fruit are used: the pith and pips (separated and placed in a muslin bag) are boiled in a mixture of juice, slivered peel, sliced-up flesh, sugar, and water to extract their pectin, which helps the conserve to set.
- Orange peel is used by gardeners as a slug repellent.
- "Citrus ×sinensis (L.) Osbeck (pro sp.) (maxima × reticulata) sweet orange". Plants.USDA.gov. Archived from the original on May 12, 2011.
- Xu, Q; Chen, LL; Ruan, X; Chen, D; Zhu, A; Chen, C; Bertrand, D; Jiao, WB; Hao, BH; Lyon, MP; Chen, J; Gao, S; Xing, F; Lan, H; Chang, JW; Ge, X; Lei, Y; Hu, Q; Miao, Y; Wang, L; Xiao, S; Biswas, MK; Zeng, W; Guo, F; Cao, H; Yang, X; Xu, XW; Cheng, YJ; Xu, J; Liu, JH; Luo, OJ; Tang, Z; Guo, WW; Kuang, H; Zhang, HY; Roose, ML; Nagarajan, N; Deng, XX; Ruan, Y (Jan 2013). "The draft genome of sweet orange (Citrus sinensis)". Nature Genetics. 45: 59–66. doi:10.1038/ng.2472. PMID 23179022.
- "Orange Fruit Information". 9 June 2017. Retrieved 20 September 2018.
- "Orange fruit nutrition facts and health benefits". Retrieved 20 September 2018.
- "Oranges: Health Benefits, Risks & Nutrition Facts". Retrieved 20 September 2018.
- Andrés García Lor (2013). Organización de la diversidad genética de los cítricos (PDF) (Thesis). p. 79.
- Velasco, R; Licciardello, C (2014). "A genealogy of the citrus family". Nature Biotechnology. 32 (7): 640–642. doi:10.1038/nbt.2954. PMID 25004231.
- Morton, J (1987). "Orange, Citrus sinensis. In: Fruits of Warm Climates". NewCROP, New Crop Resource Online Program, Center for New Crops & Plant Products, Purdue University. pp. 134–142.
- "Citrus sinensis". Germplasm Resources Information Network (GRIN). Agricultural Research Service (ARS), United States Department of Agriculture (USDA). Retrieved 10 December 2017.
- Organisms. Citrus Genome Database
- "Top Production of Oranges, 2014 – choose "Production, Crops, World" in the left margin and picklist". United Nations, Food and Agricultural Organization, FAO Statistics. 2014. Retrieved 1 April 2017.
- Nicolosi, E.; Deng, Z. N.; Gentile, A.; La Malfa, S.; Continella, G.; Tribulato, E. (2000). "Citrus phylogeny and genetic origin of important species as investigated by molecular markers". Theoretical and Applied Genetics. 100 (8): 1155–1166. doi:10.1007/s001220051419.
- Bailey, H. and Bailey, E. (1976). Hortus Third. Cornell University MacMillan. N.Y. p. 275.
- "Seed and Fruits". esu.edu. Archived from the original on 2010-11-14.
- Willard Hodgson (1967–1989) . "4". In Webber, Herbert John; rev Walter Reuther and Harry W. Lawton (eds.). The Citrus Industry, Horticultural Varieties of Citrus. Riverside, California: University of California Division of Agricultural Sciences. Archived from the original on 2012-02-05.
- "Sweet Orange – Citrus sinensis (L.) Osbeck (pro. sp.) – Overview – Encyclopedia of Life". Encyclopedia of Life.
- "Pith dictionary definition – pith defined". www.yourdictionary.com.
- "Pip dictionary definition – pip defined". www.yourdictionary.com.
- Kimball, Dan A. (June 30, 1999). Citrus processing: a complete guide (2d ed.). New York: Springer. p. 450. ISBN 978-0-8342-1258-9.
- Webber, Herbert John; Reuther, Walter & Lawton, Harry W. (1967–1989) . "The Citrus Industry". Riverside, California: University of California Division of Agricultural Sciences. Archived from the original on 2004-06-04.
- Home Fruit Production – Oranges, Julian W. Sauls, Ph.D., Professor & Extension Horticulturist, Texas Cooperative Extension (December, 1998), aggie-horticulture.tamu.edu
- "Plant Profile for Citrus ×aurantium L. (pro sp.), http://plants.usda.gov/java/profile?symbol=CIAU8
- Curk, Franck; Ollitrault, Frédérique; Garcia-Lor, Andres; Luro, François; Navarro, Luis; Ollitrault, Patrick (2016). "Phylogenetic origin of limes and lemons revealed by cytoplasmic and nuclear markers". Annals of Botany. 117 (4): 565–583. doi:10.1093/aob/mcw005. PMC 4817432. PMID 26944784.
- Gerald Klingaman. "Plant of the Week. Hardy Orange or Trifoliate Orange. Latin: Poncirus trifoliat". University of Arkansas. Division of Agriculture.
- "Tangerines (mandarin oranges) nutrition facts and health benefits". nutrition-and-you.com.
- "Definition of SCION". www.merriam-webster.com.
- "Definition of orange". Collins English Dictionary (collinsdictionary.com).
- "Definition of orange". OED online (www.oxforddictionaries.com).
- Paterson, Ian (2003). A Dictionary of Colour: A Lexicon of the Language of Colour (1st paperback ed.). London: Thorogood (published 2004). p. 280. ISBN 978-1-85418-375-0. OCLC 60411025.
- "orange colour – orange color, n. (and adj.)". Oxford English Dictionary. OED. Retrieved 19 April 2011.
- Maerz, Aloys John; Morris, Rea Paul (1930), A Dictionary of Color, New York: McGraw-Hill, p. 200
- "Multilingual Multiscript Plant Name Database: Sorting Citrus Names". University of Melbourne (www.search.unimelb.edu.au). Retrieved 11 December 2012.
- Ostergren, Robert C. & Le Bosse, Mathias (2011). The Europeans, Second Edition: A Geography of People, Culture, and Environment. Guilford Press. p. 129. ISBN 978-1-60918-140-6.
- Charles Duff (1971). Spanish for beginners. HarperCollins. p. 191. ISBN 978-0-06-463271-3.
- See also List of Puerto Rican slang words and phrases
- "What is the meaning of the Slovak word pomaranč?". WordHippo.
- Hoad, T. F. (1996). "orange". The Concise Oxford Dictionary of English Etymology. HighBeam Research. Retrieved May 19, 2010.
- G Albert Wu; et al. (2014). "Sequencing of diverse mandarin, pomelo and orange genomes reveals complex history of admixture during citrus domestication". Nature Biotechnology. 32 (7): 656–662. doi:10.1038/nbt.2906. PMC 4113729. PMID 24908277.
- Wu, Guohong Albert; Terol, Javier; Ibanez, Victoria; López-García, Antonio; Pérez-Román, Estela; Borredá, Carles; Domingo, Concha; Tadeo, Francisco R; Carbonell-Caballero, Jose; Alonso, Roberto; Curk, Franck; Du, Dongliang; Ollitrault, Patrick; Roose, Mikeal L. Roose; Dopazo, Joaquin; Gmitter Jr, Frederick G.; Rokhsar, Daniel; Talon, Manuel (2018). "Genomics of the origin and evolution of Citrus". Nature. 554 (7692): 311–316. doi:10.1038/nature25447. and Supplement
- Trillo San José, Carmen (1 September 2003). "Water and landscape in Granada". Universidad de Granada.
- Jean-Baptiste Leroux (2002). The Gardens of Versailles. Thames & Hudson. p. 368.
- Nancy Mitford (1966). The Sun King. Sphere Books Ltd. p. 11.
- Sauls, Julian W. (December 1998). "HOME FRUIT PRODUCTION-ORANGES". The Texas A&M University System. Retrieved 30 November 2012.
- Mau, Ronald & Kessing, Jayma Martin (April 2007). "Ceratitis capitata (Wiedemann)". Knowledge Master, University of Hawaii. Retrieved 5 December 2012.
- Coit, John Eliot (1915). Citrus fruits: an account of the citrus fruit industry, with special reference to California requirements and practices and similar conditions. The Macmillan Company. Retrieved 2 October 2011.
- Material Identification Sheet. Webcapua.com. Retrieved on 2011-10-02 (in French).
- Citrus Pages / Sweet oranges. Users.kymp.net. Retrieved on 2011-10-02.
- Ferguson, James J. Your Florida Dooryard Citrus Guide – Appendices, Definitions and Glossary. edis.ifas.ufl.edu
- "The Life of Lue Gim Gong". West Volusia Historical Society. Archived from the original on 15 November 2012. Retrieved 5 December 2012.
- "Orange". www.hort.purdue.edu.
- "Home". Sunkist. Archived from the original on 2011-01-20.
- Staff of the Citrus Experiment Station, College of Natural and Agricultural Sciences (1910–2011). "Sweet Oranges and Their Hybrids". Citrus Variety Collection. University of California (Riverside). Retrieved January 19, 2011.
- "Commodity Fact Sheet: Citrus Fruits" (PDF). California Foundation for Agriculture in the Classroom. Retrieved 2012-03-06.
- Saunders, William "Experimental Gardens and Grounds", in USDA, Yearbook of Agriculture 1897, 180 ff; USDA, Yearbook of Agriculture 1900, 64.
- "UBC Botanical Garden, Botany Photo of the Day". Archived from the original on 2010-01-24.
- Susser, Allen (1997). The Great Citrus Book: A Guide with Recipes. Ten Speed Press. ISBN 978-0-89815-855-7.
- Cara Cara navel orange. University of California, Riverside
- Portakal Çeşitleri: Seker portakal Archived 2012-01-12 at the Wayback Machine (in Turkish)
- Bai, Jinhe; Baldwin, Elizabeth B; Hearn, Jake; Driggers, Randy; Stover, Ed (2014). "Volatile Profile Comparison of USDA Sweet Orange-like Hybrids versus 'Hamlin' and 'Ambersweet'". HortScience. 49 (10): 1262–1267. doi:10.21273/HORTSCI.49.10.1262.
- Tietel, Z; Plotto, A; Fallik, E; Lewinsohn, E; Porat, R (2011). "Taste and aroma of fresh and stored mandarins". Journal of the Science of Food and Agriculture. 91 (1): 14–23. doi:10.1002/jsfa.4146. PMID 20812381.
- El Hadi, M. A.; Zhang, F. J.; Wu, F. F.; Zhou, C. H.; Tao, J (2013). "Advances in fruit aroma volatile research". Molecules. 18 (7): 8200–29. doi:10.3390/molecules18078200. PMID 23852166.
- Bai, J; Baldwin, E. A.; McCollum, G; Plotto, A; Manthey, J. A.; Widmer, W. W.; Luzio, G; Cameron, R (2016). "Changes in Volatile and Non-Volatile Flavor Chemicals of "Valencia" Orange Juice over the Harvest Seasons". Foods. 5 (1): 4. doi:10.3390/foods5010004. PMC 5224568. PMID 28231099.
- Sinclair, Walton B.; Bartholomew, E.T. & Raamsey, R. C. (1945). "Analysis of the organic acids of orange juice" (PDF). Plant Physiology. 20 (1): 3–18. doi:10.1104/pp.20.1.3. PMC 437693. PMID 16653966.
- Centers for Disease Control and Prevention (CDC) (July 16, 1999). "Outbreak of Salmonella Serotype Muenchen Infections Associated with Unpasteurized Orange Juice – United States and Canada, June 1999". Morbidity and Mortality Weekly Report. 48 (27): 582–585. PMID 10428096.
- Aschoff JK, Kaufmann S, Kalkan O, Neidhart S, Carle R, Schweiggert RM (2015). "In Vitro Bioaccessibility of Carotenoids, Flavonoids, and Vitamin C from Differently Processed Oranges and Orange Juices [Citrus sinensis (L.) Osbeck]". J Agric Food Chem. 63 (2): 578–87. doi:10.1021/jf505297t. PMID 25539394.CS1 maint: Uses authors parameter (link)
- Perez-Cacho PR, Rouseff RL (2008). "Fresh squeezed orange juice odor: a review". Crit Rev Food Sci Nutr. 48 (7): 681–95. doi:10.1080/10408390701638902. PMID 18663618.CS1 maint: Uses authors parameter (link)
- Penniston KL, Nakada SY, Holmes RP, Assimos DG (2008). "Quantitative Assessment of Citric Acid in Lemon Juice, Lime Juice, and Commercially-Available Fruit Juice Products". Journal of Endourology. 22 (3): 567–570. doi:10.1089/end.2007.0304. PMC 2637791. PMID 18290732.
- United States Standards for Grades of Florida Oranges and Tangelos (USDA; February, 1997)
- "How Cold Can Water Get?". NEWTON BBS. Argonne National Laboratory. 2002-09-08. Retrieved 2009-04-16.
- Moore, Frank Ensor (1995). Redlands Astride the Freeway: The Development of Good Automobile Roads. Redlands, California: Moore Historical Foundation. p. 9. ISBN 978-0-914167-07-5.
- Lacey, Kevin (July 2012). "Citrus rootstocks for WA" (PDF). Government of WA. Department of Agriculture and Food. Archived from the original (PDF) on 2013-11-12. Retrieved 30 November 2012.
- Dr Price, Martin. "Citrus Propagation and Rootstocks". ultimatecitrus.com. Retrieved 30 November 2012.
- Citrus Propagation. Research Program on Citrus Rootstock Breeding and Genetics. ars-grin.gov
- Ehsani, R. et al. (June 2007) "In-situ Measurement of the Actual Detachment Force of Oranges Harvested by a Canopy Shaker Harvesting Machine". Abstracts for the 2007 Joint Annual Meeting of the Florida State Horticulture Society.
- "Fresh Citrus Direct". freshcitrusdirect.wordpress.com. Archived from the original on 2015-01-10.
- Wagner, Alfred B. & Sauls, Julian W. "Harvesting and Pre-pack Handling". The Texas A&M University System. Retrieved 29 November 2012.
- Arpaia, Mary Lu & Kader, Adel A. "Orange: Recommendations for Maintaining Postharvest Quality". UCDavis Postharvest Technology Center.
- Ritenour, M.A. Orange Archived 2012-01-27 at the Wayback Machine. From The Commercial Storage of Fruits, Vegetables, and Florist and Nursery Stocks Archived 2012-04-22 at the Wayback Machine. USDA (2004)
- "Home Storage Guide for Fresh Fruits & Vegetables. Canadian Produce Marketing Association" (PDF). cpma.ca. Archived from the original (PDF) on 2013-05-12.
- Asian Citrus Psllids (Sternorryncha: Psyllidae) and Greening Disease of Citrus, by Susan E. Halbert and Keremane L. Manjunath, Florida Entomologist (Abstract. September 2004) p. 330 FCLA.edu
- GAIN Report Number: BR9006, USDA Foreign Agricultural Service (June, 2009)
- Qureshi, Jawwad A. and Stansly, Philip A. (June 2007) "Integrated approaches for managing the Asian citrus psyllid (Homoptera: Psyllidae) in Florida". Abstracts for the 2007 Joint Annual Meeting of the Florida State Horticulture Society
- Mondal, S.N. et al. (June 2007) "Effect of Water Management and Soil Application of Nitrogen Fertilizers, Petroleum Oils, and Lime on Inoculum Production by Mycosphaerella citri, the Cause of Citrus Greasy Spot". Abstracts for the 2007 Joint Annual Meeting of the Florida State Horticulture Society
- GAIN Report Number: BR10005, USDA Foreign Agricultural Service (6/15/2010)
- "Frozen Concentrated Orange Juice (FCOJ) Commodity Market – Credit and Finance Risk Analysis". credfinrisk.com. Archived from the original on 17 March 2012.
- "Oranges: Production Map by State". US Department of Agriculture. 1 March 2017. Retrieved 1 April 2017.
- "History of the Indian River Citrus District". Indian River Citrus League (ircitrusleague.org). Retrieved 27 November 2012.
- USDA Foreign Agricultural Service. "USDA – U.S and the World Situation: Citrus" (PDF). Archived from the original (PDF) on June 4, 2012.
- Spreen, Thomas H. Projections of World Production and Consumption of Citrus to 2010. Archived from the original on 2006-02-07.CS1 maint: BOT: original-url status unknown (link)
- Barros HR, Ferreira TA, Genovese MI (2012). "Antioxidant capacity and mineral content of pulp and peel from commercial cultivars of citrus from Brazil". Food Chem. 134 (4): 1892–8. doi:10.1016/j.foodchem.2012.03.090. PMID 23442635.CS1 maint: Uses authors parameter (link)
- Townsend, Chet. "The Story of Florida Orange Juice: From the Grove to Your Glass".
- "D-LIMONENE". International Programme on Chemical Safety. April 2005.
- "(±)-1-methyl-4-(1-methylvinyl)cyclohexene". ECHA. January 2019.
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- Media related to Citrus sinensis at Wikimedia Commons
- Data related to Citrus sinensis at Wikispecies
- Citrus sinensis List of Chemicals (Dr. Duke's Phytochemical and Ethnobotanical Databases), USDA, Agricultural Research Service.
- Oranges: Safe Methods to Store, Preserve, and Enjoy. (2006). University of California Agriculture and Natural Resources. Accessed May 23, 2014.