Cultivation
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Rubus berries have been crossbred to create a diverse range of brambleberries with desirable traits
Strawberries have been grown in gardens in Europe since the 14th century.‍ Blueberries were domesticated starting in 1911, with the first commercial crop in 1916.‍ Huckleberries of all varieties are not fully domesticated. Many other varieties of Vaccinium are likewise not domesticated.
Cloudberry, common flowering plant in the cool temperate regions, alpine and arctic tundra and boreal forest.‍
Agricultural methods[edit]
Like most other food crops, berries are commercially grown, with both conventional pest management and integrated pest management (IPM) practices.‍:5
Many soft fruit berries require a period of temperatures between 0 and 10 °C (32 and 50 °F) for breaking dormancy. In general, strawberries require 200–300 hours, blueberries 650–850 hours, blackberries 700 hours, raspberries 800–1,700 hours, currants and gooseberries 800–1,500 hours, and cranberries 2,000 hours.‍ However, too low a temperature will kill the crops: blueberries do not tolerate temperatures below −29 °C (−20 °F), raspberries, depending on variety, may tolerate as low as −31 °C (−24 °F), and blackberries are injured below −20 °C (−4 °F).‍ Spring frosts are, however, much more damaging to berry crops than low winter temperatures. Sites with moderate slopes (3%–5%), facing north or east in the Northern Hemisphere, near large bodies of water, which regulate spring temperature, are considered ideal in preventing spring frost injury to the new leaves and flowers.‍ All berry crops have shallow root systems.‍ Many US land-grant university extension offices suggest that strawberries should not be planted more than five years on the same site, due to the danger of black root rot (though many other illnesses go by the same name), which in the past has been controlled in major commercial production by annual methyl bromide fumigation but which is largely prohibited now.‍[where?] Besides the number of years in production, soil compaction, the frequency of fumigation, and herbicide usages increase the appearance of black root rot in strawberries.‍ Raspberries, blackberries, strawberries, and many other berries are susceptible to verticillium wilt. Blueberries and cranberries grow poorly if the clay or silt content of the soil is more than 20%, while most other berries tolerate a wide range of soil types.‍ For most berry crops, the ideal soil is well drained sandy loam, with a pH of 6.2–6.8 and a moderate to high organic content; however, blueberries have an ideal pH of 4.2–4.8 and can be grown on muck soils, while blueberries and cranberries prefer poorer soils with lower cation exchange, lower calcium, and lower levels of phosphorus.‍
Growing most berries organically requires the use of proper crop rotation, the right mix of cover crops, and the cultivation of the correct beneficial microorganisms in the soil.‍ As blueberries and cranberries thrive in soils that are not hospitable to most other plants, and conventional fertilizers are toxic to them, the primary concern when growing them organically is bird management.‍
Postharvest small fruit berries are generally stored at 90%–95% relative humidity and 0 °C (32 °F).‍ Cranberries, however, are frost sensitive, and should be stored at 3 °C (37 °F).‍ Blueberries are the only berries that respond to ethylene, but flavor does not improve after harvest, so they require the same treatment as other berries. Removal of ethylene may reduce disease and spoilage in all berries.‍ Precooling within one to two hours post-harvest to storage temperature, generally 0 °C (32 °F), via forced air cooling increases the storage life of berries by about a third.‍ Under optimum storage conditions, raspberries and blackberries last for two to five days, strawberries 7–10 days, blueberries two to four weeks, and cranberries two to four months.‍ Berries can be shipped under high carbon dioxide or modified atmosphere of 10%–15% carbon dioxide for high carbon dioxide or 15%–20% carbon dioxide and 5%–10% oxygen for a modified atmosphere container to increase shelf life and prevent grey mold rot.‍
Example of color contrast in (mostly inedible) wild berries
Breeding[edit]
Several discoveries in the science of breeding berries were made in the 18th century by Antoine Nicolas Duchesne in his work on strawberries.‍ In the traditional technique of plant breeding, berries with specific desirable characteristics were chosen and allowed to sexually reproduce with other berries, and offspring with improved traits could then be selected and used for further crossing. Plants may be hybridized with different species within the same genus; hybridization between different genus may also be possible, but more difficult. Breeding may seek to increase the size and yield of the fruit, improve the flavor and quality of its nutrient content, such as antioxidants, expand the harvest season, and produce cultivars with resistance to diseases, tolerance of hot or cold conditions, and other desirable traits.‍ Advancements in molecular biology and genetic engineering allow for a more efficient and better targeted approach in the selection for a desirable genotype, via marker-assisted selection, for example.‍ Genetic modification techniques can also be used for breeding berries.‍
Horticultural soft fruit berries[edit]
Some fruit not commonly referred to as berries and not always botanically berries are included by US land-grant university extension offices in their guides for berry cultivation, or in guides for identifying local wild edible and non-edible berries. Examples include beach plums,‍ American persimmons, pawpaws, Pacific crabapples, and prickly pears.‍