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Widespread wild strawberry species include F. virginiana, which grows through eastern North America; F. vesca, the alpine strawberry, which has a Eurasian distribution and has now also naturalized in North America; and F. chiloensis, beach strawberry, which occurs from coastal Alaska to California and extends into South America. F. ananassa, the garden strawberry, is a hybrid of F. virginiana and F. chiloensis, although some studies suggest that it may also carry genes from other species. Native to Europe, the musk strawberry (F. moschata) is also cultivated, similarly to the garden strawberry.
Fragaria plants are woody (or occasionally herbaceous) perennials that spread vegetatively, by stolons--rooting runners that form new plantlets at the tip--as well as seed; commercial propagation is entirely by the runners. The leaves, which overwinter are alternate (in winter, appearing as a basal rosette) and compound, usually with 3 but occasionally with 5 coarsely toothed leaflets. Flowers have 5 sepals and 5 petals and are generally white, although may be pinkish or reddish in some species and cultivars. The strawberry, which usually ripens to red, is not a true berry botanically, but is a fleshy receptable bearing multiple fruits on the surface—these apparent seeds are actually achenes, small, one-seeded fruits with hard coverings that do not split open (dehisce) when ripe.
Strawberries are often eaten as a fresh fruit, famously in strawberry shortcake, and are also processed into ice creams, jams and preserves, mousses, fruit juice, and various baked goods and candies. Strawberries may also be fermented into wine or liqueur (such as the Italian fragoli).
In 2010, the worldwide commercial production of strawberries was 4.4 million metric tons (mmt), harvested from around 244,000 hectares. Nearly 10% of the area harvested was in the U.S., but that accounted for more than than 25% of the total (1.3 mmt). Strawberry production is particularly important in California, which produces 88% of the U.S. total, valued at around $2.3 billion annually. The U.S. harvest was more than 5 times that of any other country. Other major producers include Turkey, Spain, Egypt, Korea, and Mexico.
Strawberries are particularly susceptible to damage from frost, and became the subject of a famous early field test of releasing genetically engineered organisms into the environment. Research starting in the 1960s had identified a bacterial species, Pseudomonas syringae, that provides nucleation sites for ice crystals to form (the so-called “ice-plus” bacteria). With a single genetic modification, the surface proteins in these bacteria can be altered so that they no longer provide a suitable ice-formation surface. Bacteria altered to have the “ice-minus” gene, developed by the California company, Advanced Genetic Sciences, were tested in a controversial field experiment on strawberries in 1987, in which a bacterial solution was sprayed on the strawberry plants before a frost. Although initial results suggested the modified bacteria did prevent ice formation, concerns about whether releasing these bacteria for commercial application might adversely affect snow and ice formation, with potentially large implications for regional weather patterns, have inhibited widespread use of ice-minus bacteria in strawberry cultivation.
(Bailey et al. 1976, California Strawberry Commission 2012, Domoto et al. 2008, FAOSTAT 2012, Flora of China 2012, Nottingham 2003, van Wyk 2005.)