Blackberry
De Mi caja de notas
Blackberry | |
---|---|
Ripe, ripening, and unripe Allegheny blackberries (Rubus allegheniensis) | |
Blackberry flower, Rubus fruticosus species aggregate | |
Scientific classification | |
Kingdom: | Plantae |
Clade: | Tracheophytes |
Clade: | Angiosperms |
Clade: | Eudicots |
Clade: | Rosids |
Order: | Rosales |
Family: | Rosaceae |
Genus: | Rubus |
Subgenus: | Rubus subg. Rubus |
Species | |
And hundreds more microspecies | |
Synonyms | |
Rubus subg. Eubatus |
The blackberry is an edible fruit produced by many species in the genus Rubus in the family Rosaceae, hybrids among these species within the subgenus Rubus, and hybrids between the subgenera Rubus and Idaeobatus. The taxonomy of blackberries has historically been confused because of hybridization and apomixis, so that species have often been grouped together and called species aggregates.
Blackberry fruit production is abundant with annual volumes of 20,000 pounds (9,100 kg) per 1 acre (0.40 ha) possible, making this plant commercially attractive.[1]
Rubus armeniacus ("Himalayan" blackberry) is considered a noxious weed and invasive species in many regions of the Pacific Northwest of Canada and the United States, where it grows out of control in urban and suburban parks and woodlands.[2][3]
Description
What distinguishes the blackberry from its raspberry relatives is whether or not the torus (receptacle or stem) "picks with" (i.e., stays with) the fruit. When picking a blackberry fruit, the torus stays with the fruit. With a raspberry, the torus remains on the plant, leaving a hollow core in the raspberry fruit.[4]
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Halved blackberry with present torus
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Halved raspberry with absent torus, for contrast
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Wild blackberries picked in May in Texas
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Blackberries from Srem, Serbia
The term bramble, a word referring to any impenetrable thicket, has in some circles traditionally been applied specifically to the blackberry or its products,[5] though in the United States it applies to all members of the genus Rubus. In the western US, the term caneberry is used to refer to blackberries and raspberries as a group rather than the term bramble. Briar or brier may be used to refer to the dense vines of the plant, though this name is used for other thorny thickets (such as Smilax) as well.[6]
The usually black fruit is not a berry in the botanical sense, as it is termed botanically as an aggregate fruit, composed of small drupelets. It is a widespread and well-known group of over 375 species, many of which are closely related apomictic microspecies native throughout Europe, northwestern Africa, temperate western and central Asia and North and South America.[7]
Plants
Blackberries are perennial plants bearing biennial stems (called canes) from their roots.[8]
In its first year, a new stem, the primocane, reaches a full length of about 3–6 metres (9.8–19.7 feet) trailing on the ground and bearing large palmate compound leaves with 5–7 new leaves; it does not produce any flowers.[8] In its second year, the cane is a floricane with a non-growing stem.[8] The lateral buds open to produce flowering laterals.[8] First- and second-year shoots produce short-curved, sharp thorns.[8] Thornless cultivars have been developed during the early 21st century.[8][9]
Unmanaged plants tend to aggregate in a dense tangle of stems and branches,[3] which can be controlled in gardens or farms using trellises.[1][8] Blackberry shrubs can tolerate poor soils, spreading readily in wasteland, ditches, and roadsides.[3][7][10]
The flowers bloom in late spring and early summer on the tips of branches.[7][8] Each flower is about 2–3 centimetres (3⁄4–1+1⁄4 inches) in diameter, with five white-pink petals.[7][8] The fruit only develops around ovules fertilized by the male gamete from a pollen grain.[citation needed] The most likely cause of undeveloped ovules is inadequate pollinator visits.[11] Incomplete drupelet development can signal infection with raspberry bushy dwarf virus.[citation needed]
Genetics
The loci controlling the primocane fruiting was mapped in the F Locus, on LG7, whereas thorns/thornlessness was mapped on LG4.[12] Better understanding of the genetics is useful for genetic screening of cross-breds, and for genetic engineering purposes.[citation needed]
Ecology
Blackberry leaves are food for certain caterpillars; some grazing mammals, especially deer, are also very fond of the leaves. Caterpillars of the concealer moth Alabonia geoffrella have been found feeding inside dead blackberry shoots. When mature, the berries are eaten and their seeds dispersed by mammals, such as the red fox, American black bear and the Eurasian badger, as well as by small birds.[13]
Blackberries grow wild throughout most of Europe. They are an important element in the ecology of many countries, and harvesting the berries is a common pastime. However, their vigorous growth and tendency to grow unchecked if not managed correctly means that the plants are also considered a weed, sending down roots from branches that touch the ground, and sending up suckers from the roots. In some parts of the world, such as in Australia, Chile, New Zealand, and the Pacific Northwest of North America, some blackberry species, particularly Rubus armeniacus (Himalayan blackberry) and Rubus laciniatus (evergreen blackberry), are naturalized and considered an invasive species and a noxious weed.[2][3][7]
Blackberry fruits are red when unripe, leading to an old expression that "blackberries are red when they're green".[14][15]
Cultivation
Worldwide, Mexico is the leading producer of blackberries, with nearly the entire crop being produced for export into the off-season fresh markets in North America and Europe.[16] Until 2018, the Mexican market was almost entirely based on the cultivar 'Tupy' (often spelled 'Tupi', but the EMBRAPA program in Brazil from which it was released prefers the 'Tupy' spelling), but Tupy fell out of favor in some Mexican growing regions.[17] In the US, Oregon is the leading commercial blackberry producer, producing 19,300,000 kilograms (42,600,000 pounds) on 2,500 hectares (6,300 acres) in 2017.[18][19]
Numerous cultivars have been selected for commercial and amateur cultivation in Europe and the United States.[1][9][20] Since the many species form hybrids easily, there are numerous cultivars with more than one species in their ancestry.[9]
History
Modern hybridization and cultivar development took place mostly in the US. In 1880, a hybrid blackberry-raspberry named the loganberry was developed in Santa Cruz, California, by an American judge and horticulturalist, James Harvey Logan. One of the first thornless varieties was developed in 1921, but the berries lost much of their flavor. Common thornless cultivars developed from the 1990s to the early 21st century by the US Department of Agriculture enabled efficient machine-harvesting, higher yields, larger and firmer fruit, and improved flavor, including the Triple Crown,[21][22] Black Diamond, Black Pearl, and Nightfall, a marionberry.[9]
Hybrids
'Marion' (marketed as "marionberry") is an important cultivar that was selected from seedlings from a cross between 'Chehalem' and 'Olallie' (commonly called "Olallieberry") berries.[23] 'Olallie' in turn is a cross between loganberry and youngberry. 'Marion', 'Chehalem' and 'Olallie' are just three of many trailing blackberry cultivars developed by the United States Department of Agriculture Agricultural Research Service (USDA-ARS) blackberry breeding program at Oregon State University in Corvallis, Oregon.[9]
The most recent cultivars released from this program are the thornless cultivars 'Black Diamond', 'Black Pearl', and 'Nightfall' as well as the early-ripening 'Obsidian' and 'Metolius'. 'Black Diamond' is now the leading cultivar being planted in the Pacific Northwest. Some of the other cultivars from this program are 'Newberry', 'Waldo', 'Siskiyou', 'Black Butte', 'Kotata', 'Pacific', and 'Cascade'.[9]
Varieties with good commercial characteristics developed in Arkansas are grown in nurseries in Oklahoma.[1] Such blackberries are easy to grow, and may produce fruit for a decade or more.[1] These varieties have diverse flavors varying from sweet to tart.[1]
Trailing
Trailing blackberries are vigorous and crown-forming, require a trellis for support, and are less cold-hardy than the erect or semi-erect blackberries. In addition to the Pacific Northwest, these types do well in similar climates, such as the United Kingdom, New Zealand, Chile, and the Mediterranean countries.[citation needed]
Thornless
Semi-erect, prickle-free blackberries were first developed at the John Innes Centre in Norwich, UK, and subsequently by the USDA-ARS in Beltsville, Maryland. These are crown forming and very vigorous and need a trellis for support. Cultivars include 'Black Satin', 'Chester Thornless', 'Dirksen Thornless', 'Hull Thornless', 'Loch Maree', 'Loch Ness', 'Loch Tay', 'Merton Thornless', 'Smoothstem', and 'Triple Crown'.[24] 'Loch Ness' and 'Loch Tay' have gained the RHS's Award of Garden Merit.[25] The cultivar 'Cacanska Bestrna' (also called 'Cacak Thornless') has been developed in Serbia and has been planted on many thousands of hectares there.
Erect
The University of Arkansas has developed cultivars of erect blackberries. These types are less vigorous than the semi-erect types and produce new canes from root initials (therefore they spread underground like raspberries). There are prickly and prickle-free cultivars from this program, including 'Navaho', 'Ouachita', 'Cherokee', 'Apache', 'Arapaho', and 'Kiowa'.[26][27] They are also responsible for developing the primocane fruiting blackberries such as 'Prime-Jan' and 'Prime-Jim'.[26]
Primocane
In raspberries, these types are called primocane fruiting, fall fruiting, or everbearing. 'Prime-Jim' and 'Prime-Jan' were released in 2004 by the University of Arkansas and are the first cultivars of primocane fruiting blackberry.[28] They grow much like the other erect cultivars described above; however, the canes that emerge in the spring will flower in midsummer and fruit in late summer or fall. The fall crop has its highest quality when it ripens in cool mild climate such as in California or the Pacific Northwest.[29]
'Illini Hardy', a semi-erect prickly cultivar introduced by the University of Illinois, is cane hardy in zone 5, where blackberry production has traditionally been problematic, since canes often failed to survive the winter.[citation needed]
Mexico and Chile
Blackberry production in Mexico expanded considerably in the early 21st century.[16][19] In 2017, Mexico had 97% of the market share for fresh blackberries imported into the United States, while Chile had 61% of the market share for American imports of frozen blackberries.[19]
While once based on the cultivar 'Brazos', an old erect blackberry cultivar developed in Texas in 1959, the Mexican industry is now dominated by the Brazilian 'Tupy' released in the 1990s. The 'Tupy' has the erect blackberry 'Comanche', and a "wild Uruguayan blackberry" as parents.[30] Since there are no native blackberries in Uruguay, the suspicion is that the widely grown 'Boysenberry' is the male parent. To produce these blackberries in regions of Mexico where there is no winter chilling to stimulate flower bud development, chemical defoliation and application of growth regulators are used to bring the plants into bloom.[citation needed]
Diseases and pests
Because blackberries belong to the same genus as raspberries,[31] they share the same diseases, including anthracnose (a type of canker), which can cause the berry to have uneven ripening. Sap flow may also be slowed.[32][33] They also share the same remedies, including the Bordeaux mixture,[34] a combination of lime, water and copper(II) sulfate.[35] The rows between blackberry plants must be free of weeds, blackberry suckers and grasses, which may lead to pests or diseases.[36] Fruit growers are selective when planting blackberry bushes because wild blackberries may be infected,[36] and gardeners are recommended to purchase only certified disease-free plants.[37]
The spotted-wing drosophila, Drosophila suzukii, is a serious pest of blackberries.[38] Unlike its vinegar fly relatives, which are primarily attracted to rotting or fermented fruit, D. suzukii attacks fresh, ripe fruit by laying eggs under the soft skin. The larvae hatch and grow in the fruit, destroying the fruit's commercial value.[38]
Another pest is Amphorophora rubi, known as the blackberry aphid, which eats not just blackberries but raspberries as well.[39][40][41]
Byturus tomentosus (raspberry beetle), Lampronia corticella (raspberry moth) and Anthonomus rubi (strawberry blossom weevil) are also known to infest blackberries.[42]
Nutritional value per 100 g (3.5 oz) | |||||||||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Energy | 180 kJ (43 kcal) | ||||||||||||||||||||||||||||||||||||||||||||||
9.61 g | |||||||||||||||||||||||||||||||||||||||||||||||
Sugars | 4.88 g | ||||||||||||||||||||||||||||||||||||||||||||||
Dietary fiber | 5.3 g | ||||||||||||||||||||||||||||||||||||||||||||||
0.49 g | |||||||||||||||||||||||||||||||||||||||||||||||
1.39 g | |||||||||||||||||||||||||||||||||||||||||||||||
| |||||||||||||||||||||||||||||||||||||||||||||||
Other constituents | Quantity | ||||||||||||||||||||||||||||||||||||||||||||||
Water | 88 g | ||||||||||||||||||||||||||||||||||||||||||||||
†Percentages estimated using US recommendations for adults,[43] except for potassium, which is estimated based on expert recommendation from the National Academies.[44] |
Uses
Nutrients
Raw blackberries are 88% water, 10% carbohydrates, 1% protein, and 0.5% fat (table). In a 100 grams (3.5 oz) reference amount, raw cultivated blackberries supply 43 calories and rich contents (20% or more of the Daily Value (DV) of dietary fiber, manganese (31% DV), vitamin C (25% DV), and vitamin K (19% DV) (table).
Seed composition
Blackberries contain numerous large seeds that are not always preferred by consumers. The seeds contain oil rich in omega-3 (alpha-linolenic acid) and omega-6 (linoleic acid) fats as well as protein, dietary fiber, carotenoids, ellagitannins, and ellagic acid.[45]
Culinary use
The ripe fruit is commonly used in desserts, jams, jelly, wine and liqueurs. It may be mixed with other berries and fruits for pies and crumbles.[46]
Phytochemical research
Blackberries contain numerous phytochemicals including polyphenols, flavonoids, anthocyanins, salicylic acid, ellagic acid, and fiber.[47][48] Anthocyanins in blackberries are responsible for their rich dark color. One report placed blackberries at the top of more than 1,000 polyphenol-rich foods consumed in the United States,[49] but this concept of a health benefit from consuming dark-colored foods like blackberries remains scientifically unverified and not accepted for health claims on food labels.[50]
Historical uses
One of the earliest known instances of blackberry consumption comes from the remains of the Haraldskær Woman, the naturally preserved bog body of a Danish woman dating from approximately 2,500 years ago. Forensic evidence found blackberries in her stomach contents, among other foods. The use of blackberries to make wines and cordials was documented in the London Pharmacopoeia in 1696.[21] In the culinary world, blackberries have a long history of use alongside other fruits to make pies, jellies and jams.[21]
Blackberry plants were used for traditional medicine by Greeks, other European peoples, and aboriginal Americans.[21] A 1771 document described brewing blackberry leaves, stem, and bark for stomach ulcers.[21]
Blackberry fruit, leaves, and stems have been used to dye fabrics and hair. Native Americans have even been known to use the stems to make rope. The shrubs have also been used for barriers around buildings, crops and livestock. The wild plants have sharp, thick prickles, which offered some protection against enemies and large animals.[21]
In culture
Folklore in the United Kingdom and Ireland tells that blackberries should not be picked after Old Michaelmas Day (11 October) as the devil (or a Púca) has made them unfit to eat by stepping, spitting or fouling on them.[51] There is some value in this legend as autumn's wetter and cooler weather often allows the fruit to become infected by various molds such as Botryotinia which give the fruit an unpleasant look and may be toxic.[52] According to some traditions, a blackberry's deep purple color represents Jesus's blood and the crown of thorns was made of brambles,[53][54] although other thorny plants, such as Crataegus (hawthorn) and Euphorbia milii (crown of thorns plant), have been proposed as the material for the crown.[55][56]
See also
- Rubus plicatus, a common European species of blackberry
- Elmleaf blackberry, another common European species of blackberry
- Pacific blackberry, a North American species of blackberry
- Rubus fruticosus, an ambiguous name used by Carl Linnaeus that applied to multiple species
- Mulberry, similar fruit appearance, but a tree rather than a bramble
- Redberry mite, a common pest of North American blackberry crops
References
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- ^ a b "Himalayan blackberry". Invasive Species Council of BC. 2021. Retrieved 13 August 2021.
- ^ a b c d "Himalayan blackberry: identification and control". King County, Washington: Noxious Weed Control Program. 16 February 2021. Retrieved 13 August 2021.
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- ^ Shorter Oxford English Dictionary (6th ed.). Oxford, UK: Oxford University Press. 2007. p. 3804. ISBN 978-0199206872.
- ^ Harrison, Les. "Wicked weeds: A tangled tale of thorny smilax". Tallahassee Democrat. Retrieved 26 May 2024.
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- ^ a b c d e f g h i Krewer, Gerard; Fonseca, Marco; Brannen, Phil; Horton, Dan (2004). "Home Garden:Raspberries, Blackberries" (PDF). Cooperative Extension Service/The University of Georgia College of Agricultural and Environmental Sciences. Archived from the original (PDF) on 26 November 2013.
- ^ a b c d e f "Thornless processing blackberry cultivars". US Department of Agriculture. 26 June 2018. Archived from the original on 21 June 2019. Retrieved 21 June 2019.
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- ^ Green, David L. "Blackberry Pollination Images". The Pollination Home Page.
- ^ Castro, P.; Stafne, E. T.; Clark, J. R.; Lewers, K. S. (16 July 2013). "Genetic map of the primocane-fruiting and thornless traits of tetraploid blackberry". Theoretical and Applied Genetics. 126 (10). Springer Nature: 2521–2532. doi:10.1007/s00122-013-2152-3. PMID 23856741. S2CID 16250883.
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- ^ "Tupy blackberry, at risk due to lack of interest in its production". FreshPlaza. 10 May 2018. Archived from the original on 21 June 2019. Retrieved 21 June 2019.
- ^ "Press Release June 27, 2018" (PDF). United States Department of Agriculture, National Agricultural Statistics Service, Northwest Regional Field Office. Archived from the original (PDF) on 20 February 2019. Retrieved 19 February 2019.
- ^ a b c "Blackberries". US Agriculture Marketing Resource Center. 1 February 2019. Retrieved 21 June 2019.
- ^ "Evergreen blackberry, Oregon Raspberry and Blackberry Commission". Oregon-Berries.com. Archived from the original on 4 October 2008. Retrieved 13 June 2017.
- ^ a b c d e f Harding, Deborah. "The History of the Blackberry Fruit". gardenguides.com. Garden Guides, Leaf Group Ltd. Retrieved 20 June 2019.
- ^ "'Triple Crown' thornless blackberry". US Department of Agriculture. 2 February 1998. Retrieved 21 June 2019.
- ^ "Marionberry, Oregon Raspberry and Blackberry Commission". Oregon-Berries.com. Archived from the original on 19 September 2008. Retrieved 13 June 2017.
- ^ Folta, Kevin M.; Kole, Chittaranjan (2011). Genetics, Genomics and Breeding of Berries. CRC Press. pp. 69–71. ISBN 978-1578087075.
- ^ "AGM Plants © RHS – CROPS BLACKBERRIES" (PDF). Royal Horticultural Society. November 2018. Archived from the original (PDF) on 5 August 2018. Retrieved 21 November 2019.
- ^ a b Folta, Kevin M.; Kole, Chittaranjan (2011). Genetics, Genomics and Breeding of Berries. CRC Press. p. 71. ISBN 978-1578087075.
- ^ Fernandez, Gina; Ballington, James. "Growing blackberries in North Carolina". North Carolina Cooperative Extension Service, North Carolina University Press. p. 2. Archived from the original on 8 January 2016. Retrieved 9 October 2015.
- ^ Vincent, Christopher I. (2008). Yield Dynamics of Primocane-fruiting Blackberries Under High-tunnels and Ambient Conditions, Including Plant Growth Unit Estimations and Arthropod Pest Considerations. p. 2. ISBN 978-0549964759. Retrieved 12 November 2012.[permanent dead link ]
- ^ Clark, J.R.; Strick, B.C.; Thompson, E.; Finn, C.E. (2012). "Progress and challenges in primocane-fruiting blackberry breeding and cultural management". Acta Horticulturae. 926 (926): 387–392. doi:10.17660/ActaHortic.2012.926.54.
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- ^ R. L. Blackman, V. F. Eastop and M. Hills (1977). Morphological and cytological separation of Amphorophora Buckton (Homoptera: Aphididae) feeding on European raspberry and blackberry ( Rubus spp.). Bulletin of Entomological Research, 67, pp 285–296 doi:10.1017/S000748530001110X
- ^ Squire, David (2007). The Garden Pest & Diseases Specialist: The Essential Guide to Identifying and Controlling Pests and Diseases of Ornamentals, Vegetables and Fruits. New Holland Publishers. p. 39. ISBN 978-1845374853. Retrieved 12 November 2012.[permanent dead link ]
- ^ 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.
- ^ 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). 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). ISBN 978-0-309-48834-1. PMID 30844154. Archived from the original on 9 May 2024. Retrieved 21 June 2024.
- ^ Bushman BS, Phillips B, Isbell T, Ou B, Crane JM, Knapp SJ (December 2004). "Chemical composition of caneberry (Rubus spp.) seeds and oils and their antioxidant potential". Journal of Agricultural and Food Chemistry. 52 (26): 7982–7. doi:10.1021/jf049149a. PMID 15612785. S2CID 32100735.
- ^ Dowling, Tim (28 August 2023). "Berry good! 17 wonderful ways with blackberries – from crumbles and cakes to mousses and muffins". The Guardian. ISSN 0261-3077. Retrieved 26 May 2024.
- ^ "Nutrition facts for raw blackberries". Nutritiondata.com. Conde Nast. 2012.
- ^ Sellappan, S.; Akoh, C. C.; Krewer, G. (2002). "Phenolic compounds and antioxidant capacity of Georgia-grown blueberries and blackberries". Journal of Agricultural and Food Chemistry. 50 (8): 2432–2438. doi:10.1021/jf011097r. PMID 11929309.
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- ^ Gross PM (1 March 2009), New Roles for Polyphenols. A 3-Part report on Current Regulations & the State of Science, Nutraceuticals World
- ^ "Michaelmas Traditions". BlackCountryBugle.co.uk. 7 October 2010. Archived from the original on 30 March 2012. Retrieved 13 June 2017.
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Further reading
- Allen, D. E.; Hackney, P. (2010). "Further fieldwork on the brambles (Rubus fruticosus L. agg.) of North-east Ireland". Irish Naturalists' Journal. 31: 18–22.
External links
- Media related to Blackberry at Wikimedia Commons