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	{{Short description\|~~Dried~~ grape}}		{{Short description\|Dark-colored dried large grape}}
	{{Other uses}}		{{Other uses}}
	{{Use dmy dates\|date=~~October~~ ~~2013~~}}		{{Use dmy dates\|date=December 2024}}
	]s in grapes crystallize during drying.]]
	]
	]s on the right, along with a metric ruler for scale.]]

			]
	A '''raisin''' is a dried ]. Raisins are produced in many regions of the world and may be eaten raw or used in ], ], and ]. In the ], ], ], and ], the word ''raisin'' is reserved for the dark-colored dried large grape,<ref>{{cite web \|author=Dom Costello \|url=http://www.kew.org/plants/festivefoods/raisins.html \|title=Kew Gardens explanation \|publisher=] \|accessdate=16 January 2013 \|url-status=dead \|archiveurl= https://web.archive.org/web/20120905030255/http://www.kew.org/plants/festivefoods/raisins.html \|archivedate=5 September 2012 \|df=dmy-all }}</ref> with '']'' being a golden-colored dried grape, and '']'' being a dried small ] seedless<ref name=pmid24176327>{{cite journal \|last1=Chiou \|first1=Antonia \|last2=Panagopoulou \|first2=Eirini A. \|last3=Gatzali \|first3=Fotini \|last4=De Marchi \|first4=Stephania \|last5=Karathanos \|first5=Vaios T. \|title=Anthocyanins content and antioxidant capacity of Corinthian currants (Vitis vinifera L., var. Apyrena) \|journal=] \|volume=146 \|issue= \|pages=157–65 \|year=2014 \|pmid=24176327 \|doi=10.1016/j.foodchem.2013.09.062 }}</ref> grape.<ref>{{Cite OED\|currant}} : "'raisins of Corauntz n.' (also called 'raisins of Corinth')".</ref>
			]

			A '''raisin''' is a ] ]. Raisins are produced in many regions of the world and may be eaten raw or used in ], ], and ]. In the United Kingdom, ], New Zealand, Australia and ],<ref>{{Cite web \|last=bakeryandsnacks.com \|title=Raisin the stakes in 2023: South African sultanas take the lead as the New Year ingredient \|url=https://www.bakeryandsnacks.com/Article/2023/01/26/raisin-the-stakes-in-2023-south-african-sultanas-take-the-lead-as-the-new-year-ingredient \|access-date=2023-03-20 \|website=bakeryandsnacks.com \|language=en-GB}}</ref> the word ''raisin'' is reserved for the dark-colored dried large grape,<ref>{{cite web \|author=Dom Costello \|url=http://www.kew.org/plants/festivefoods/raisins.html \|title=Kew Gardens explanation \|publisher=] \|access-date=16 January 2013 \|url-status=dead \|archive-url= https://web.archive.org/web/20120905030255/http://www.kew.org/plants/festivefoods/raisins.html \|archive-date=5 September 2012 }}</ref> with '']'' being a golden- or green-colored dried grape, and '']'' being a dried small ] seedless grape.<ref name=oed/>

	==Etymology==		==Etymology==
	The word "raisin" dates back to ] and is a ] from ]; in modern ], ''raisin'' means "grape", while a dried grape is a ''raisin sec'', or "dry grape". The Old French word, in turn, developed from the ] word '']'', "a bunch of grapes".<ref>{{OEtymD\|raisin}}</ref>		The word ''raisin'' dates back to ] and is a ] from ]; in modern ], ''raisin'' means "grape", while a dried grape is a ''raisin sec'', or "dry grape". The Old French word, in turn, developed from the ] word '']'', which means "a bunch of grapes."<ref name="oed">{{OEtymD\|raisin}}</ref>

	==Varieties==		==Varieties==
			{{more citations needed\|section\|date=December 2021}}
	]
	Raisin varieties depend on the type of grape used and are made in a variety of sizes and colors including green, black, brown, blue, purple, and yellow. Seedless varieties include the sultana (the common American type is known as ] in the United States), the Greek currants (black corinthian raisins,'' Vitis vinifera ''L. var. Apyrena)<ref name=pmid24176327/> and ]. Raisins are traditionally ], but may also be water-dipped and artificially dehydrated.

			]s (right), along with a metric ruler for scale]]
	"Golden raisins" are generally dried in dehydrators with controlled temperature and humidity, which allows them to retain a lighter color and more moisture. They are often treated with ] after drying.

			Raisin varieties depend on the types of grapes used and appear in a variety of sizes and colors, including green, black, brown, purple, blue, and yellow. Seedless varieties include sultanas (the common American type is known as ] in the United States), Zante currants (black Corinthian raisins, ''Vitis vinifera'' L. var. Apyrena),<ref name=oed/> and ]. Raisins are traditionally ] but may also be artificially dehydrated.
	] or ] are miniature, sometimes seedless<ref name=pmid24176327/> raisins that are much darker and have a tart, tangy flavor. They are often called currants. ] raisins are large compared to other varieties, and also sweeter.

			Golden raisins are generally dried in dehydrators with controlled temperature and humidity, which allows them to retain a lighter color and more moisture. They are often treated with ] after drying.
	Several varieties of raisins produced in Asia are available in the West only at ethnic grocers. Monukka grapes are used for some of these.<ref>{{Cite web\|url=http://www.berkeleywellness.com/healthy-eating/food/article/types-raisins\|title= Types of Raisins: Currants, Golden Seedless, and More\|website=Berkeley Wellness\|publisher=Remedy Health Media\|access-date=2017-09-20\|url-status=live\|archiveurl=https://web.archive.org/web/20170921000353/http://www.berkeleywellness.com/healthy-eating/food/article/types-raisins\|archivedate=21 September 2017\|df=dmy-all}}</ref>{{clear left}}

			] or ]s are small, sometimes seedless, raisins that are much darker and have a tart, tangy flavor. They are usually called currants.<ref name=oed/> ] raisins are larger and sweeter than other varieties.
	==Nutrition==
	{{nutritional value
	\| name=Raisins, seedless
	\| kJ=1252
	\| protein=3.07 g
	\| fat=0.46 g
	\| carbs=79.18 g
	\| fiber=3.7 g
	\| sugars=59.19 g
	\| calcium_mg=50
	\| iron_mg=1.88
	\| magnesium_mg=32
	\| phosphorus_mg=101
	\| potassium_mg=749
	\| sodium_mg=11
	\| boron_mg=2.5
	\| zinc_mg=0.22
	\| manganese_mg=0.299
	\| opt1n=]
	\| opt1v=233.9 µg
	\| vitC_mg=2.3
	\| thiamin_mg=0.106
	\| riboflavin_mg=0.125
	\| niacin_mg=0.766
	\| pantothenic_mg=0.095
	\| vitB6_mg=0.174
	\| folate_ug=5
	\| choline_mg=11.1
	\| vitE_mg=0.12
	\| vitK_ug=3.5
	\| source_usda = 1
	\| note=
	}}
	Raisins can contain up to 72% ]s by weight,<ref>Albert Julius Winkler. ''General viticulture'', ], 1962, p. 645. {{ISBN\|978-0-520-02591-2}}</ref> most of which is ] and ]. They also contain about 3% protein and 3.7%–6.8% dietary fiber.<ref>{{cite web \|url=http://ndb.nal.usda.gov/ndb/search/list?fg=Fruits+and+Fruit+Juices&qlookup=Raisins&format=Full \|title=USDA NDB Raisins \|publisher=] \|accessdate=20 April 2013 \|url-status=live \|archiveurl= https://web.archive.org/web/20150610225845/http://ndb.nal.usda.gov/ndb/search/list?fg=Fruits+and+Fruit+Juices&qlookup=Raisins&format=Full \|archivedate=10 June 2015 \|df=dmy-all }}</ref> Raisins, like ] and ]s, are also high in certain ]s, but have a lower ] content than fresh grapes. Raisins are low in ] and contain no ].<ref>{{cite web \|url= http://www.calraisins.org/professionals/healthy-benefits-of-raisins/ \|title=Nutrition Experts & Dietitians » California Raisins – The Wise Choice \|publisher=] \|date=22 February 1999 \|accessdate=16 January 2013 \|url-status=live \|archiveurl=https://web.archive.org/web/20120115142506/http://www.calraisins.org/professionals/healthy-benefits-of-raisins/ \|archivedate=15 January 2012 \|df=dmy-all }}</ref>

	Data presented at the ]'s 61st Annual Scientific Session in 2012 suggest that, among individuals with mild increases in blood pressure, the routine consumption of raisins (three times a day) may significantly lower blood pressure, compared to eating other common snacks.<ref>{{cite journal \|last1=Bays \|first1=Harold E. \|last2=Schmitz \|first2=Kathy \|last3=Christian \|first3=Amber \|last4=Ritchey \|first4=Michelle \|last5=Anderson \|first5=James \|title=Raisins And Blood Pressure: A Randomized, Controlled Trial \|journal=] \|volume=59 \|issue=13 \|year=2012 \|pages=E1721 \|doi=10.1016/S0735-1097(12)61722-7 \|lay-url=https://www.sciencedaily.com/releases/2012/03/120326113331.htm \|laysource=] \|laydate=March 26, 2012 \|df=dmy-all\|doi-access=free }}</ref>

	==Toxicity in pets==
	{{Main\|Grape and raisin toxicity in dogs}}
	Raisins can cause ] in dogs. The cause of this is not known.<ref>{{cite book\|last1=DiBartola \|first1= Stephen P.\|title=Fluid, electrolyte, and acid-base disorders in small animal practice \|date=2012\|publisher=]/]\|location=St. Louis, Mo.\|isbn=978-1-4377-0654-3\|page=155\|edition=4th}}</ref>

	==Sugars==
	Raisins are sweet due to their high concentration of sugars (about 30% fructose and 28% glucose by weight). The sugars can ] inside the fruit when stored after a long period, making the dry raisins gritty, but that does not affect their usability. These sugar grains can be dissolved by ] the fruit in hot water or other liquids.

			Grapes used to produce raisins in the Middle East and Asia include the large black monukka (or manucca) grapes that produce large raisins.<ref>{{Cite web
	==Raisin production==
			\| title = Types of Raisins: Currants, Golden Seedless, and More
	Global production in 2016 was 1.2 million metric tons, with the US as the top producer contributing 24% of the global harvest.<ref>{{cite web\|title=Nuts & Dried Fruits Global Statistical Review 2015 / 2016, p 66\|url= http://www.nutfruit.org/wp-continguts/uploads/2016/05/Global-Statistical-Review-2015-2016.pdf\|publisher=International Nut and Dried Fruit Council\|accessdate=26 June 2017\|url-status=dead\|archiveurl= https://web.archive.org/web/20170516200716/http://www.nutfruit.org/wp-continguts/uploads/2016/05/Global-Statistical-Review-2015-2016.pdf\|archivedate=16 May 2017\|df=dmy-all}}</ref>
			\| url = http://www.berkeleywellness.com/healthy-eating/food/article/types-raisins
			\| website = Berkeley Wellness
			\| publisher = Remedy Health Media
			\| access-date = 2017-09-20
			\| url-status = live
			\| archive-url = https://web.archive.org/web/20170921000353/http://www.berkeleywellness.com/healthy-eating/food/article/types-raisins
			\| archive-date = 2017-09-21
			}}</ref> {{clear left}}

			==Processing==
	Raisins are produced commercially by drying harvested grape ]. For a grape berry to dry, water inside the grape must be removed completely from the interior of the cells onto the surface of the grape where the water droplets can evaporate.<ref name="raisin processing">{{Cite journal \| last1 = Esmaiili \| first1 = M. \| last2 = Sotudeh-Gharebagh \| first2 = R. \| last3 = Cronin \| first3 = K. \| last4 = Mousavi \| first4 = M. A. E. \| last5 = Rezazadeh \| first5 = G. \| title = Grape Drying: A Review \| doi = 10.1080/87559120701418335 \| journal = Food Reviews International \| volume = 23 \| issue = 3 \| pages = 257 \| year = 2007 \| pmid = \| pmc = \| s2cid = 83652015 }}</ref> However, this diffusion process is very difficult because the grape skin contains wax in its cuticle, which prevents the water from passing through.<ref name="raisin processing" /> In addition to this, the physical and chemical mechanisms located on the outer layers of the grape are adapted to prevent water loss.<ref name="raisin production">Christensen, L.P., and Peacock, W.L. (20 April 2013) {{webarchive\|url=https://web.archive.org/web/20130612192433/http://iv.ucdavis.edu/files/24413.pdf \|date=12 June 2013 }}. ''Raisin Production Manual'', ] at ].</ref>
			], Video by ].]]

			Raisins are produced commercially by drying harvested grape ]. For a grape berry to dry, water inside the grape must be removed completely from the interior of the cells onto the surface of the grape where the water droplets can evaporate.<ref name="raisin processing">{{Cite journal \| last1 = Esmaiili \| first1 = M. \| last2 = Sotudeh-Gharebagh \| first2 = R. \| last3 = Cronin \| first3 = K. \| last4 = Mousavi \| first4 = M. A. E. \| last5 = Rezazadeh \| first5 = G. \| title = Grape Drying: A Review \| doi = 10.1080/87559120701418335 \| journal = Food Reviews International \| volume = 23 \| issue = 3 \| pages = 257 \| year = 2007 \| s2cid = 83652015 }}</ref> However, this diffusion process is very difficult because the grape skin contains wax in its cuticle, which prevents the water from passing through.<ref name="raisin processing" /> In addition to this, the physical and chemical mechanisms located on the outer layers of the grape are adapted to prevent water loss.<ref name="raisin production">Christensen, L.P., and Peacock, W.L. (20 April 2013) {{webarchive\|url=https://web.archive.org/web/20130612192433/http://iv.ucdavis.edu/files/24413.pdf \|date=12 June 2013 }}. ''Raisin Production Manual'', ] at ].</ref> The three steps to commercial raisin production include pre-treatment, drying, and post-drying processes.<ref name="raisin processing" />
	The three steps to commercial raisin production include pre-treatment, drying, and post-drying processes.<ref name="raisin processing" />

	===Pre-treatment===		===Pre-treatment===
	Pre-treatment is a necessary step in raisin production to ensure the increased rate of water removal during the drying process.<ref name="raisin processing" /> A faster water removal rate decreases the rate of browning and helps to produce more desirable raisins.<ref name="raisin processing" /> The historical method of completing this process was developed in the Mediterranean and Asia Minor areas by using a dry emulsion cold dip made of potassium carbonate and ethyl esters of fatty acids.<ref name="raisin production" /> This dip was shown to increase the rate of water loss by two- to three-fold.<ref name="raisin production" />		Pre-treatment is a necessary step in raisin production to ensure the increased rate of water removal during the drying process.<ref name="raisin processing" /> A faster water removal rate decreases the rate of browning and helps to produce more desirable raisins.<ref name="raisin processing" /> The historical method of completing this process was developed in the Mediterranean and Asia Minor areas by using a dry emulsion cold dip made of ] and ethyl esters of fatty acids.<ref name="raisin production" /> This dip was shown to increase the rate of water loss by two- to three-fold.<ref name="raisin production" />

	Recently, new methods have been developed such as exposing the grapes to oil emulsions or dilute alkaline solutions. These methods can encourage water transfer to the outer surface of grapes which helps to increase the efficiency of the drying process.<ref name="raisin processing" />		Recently, new methods have been developed such as exposing the grapes to oil emulsions or dilute alkaline solutions. These methods can encourage water transfer to the outer surface of grapes which helps to increase the efficiency of the drying process.<ref name="raisin processing" />

	===Drying===		===Drying===
	]'', ventilated sheds for drying grapes into raisins ~~in ]~~]]		]
	The three types of drying methods are: sun drying, shade drying, and mechanical drying.<ref name="raisin processing" />~~{{explain\|date=February 2018}}~~ Sun drying is an inexpensive process; however, environmental contamination, insect infections, and microbial deterioration can occur and the resulting raisins are often of low quality. Additionally, sun drying is a ~~very~~ slow process and may not produce the most desirable raisins.<ref name="raisin processing" />		The three types of drying methods are: sun drying, shade drying, and mechanical drying.<ref name="raisin processing" /> Sun drying is an inexpensive process; however, environmental contamination, insect infections, and microbial deterioration can occur and the resulting raisins are often of low quality. Additionally, sun drying is a slow process and may not produce the most desirable raisins.<ref name="raisin processing" />

	Mechanical drying can be done in a safer and more controlled environment where rapid drying is guaranteed. One type of mechanical drying is to use microwave ~~heating~~. Water molecules in the grapes absorb microwave energy resulting in rapid evaporation. Microwave ~~heating often~~ produces ~~puffy~~ raisins.<ref name="raisin processing" />		Mechanical drying can be done in a safer and more controlled environment where rapid drying is guaranteed. One type of mechanical drying is to use ] drying. Water molecules in the grapes absorb microwave energy resulting in rapid evaporation. Microwave drying produces puffed raisins.<ref name="raisin processing" />

	===Post-drying processes===		===Post-drying processes===
	], India.]]
	After the drying process is complete, raisins are sent to processing plants where they are cleaned with water to remove any foreign objects that may have become embedded during the drying process.<ref name="raisin processing" /> Stems and off-grade raisins are also removed. The washing process may cause rehydration, so another drying step is completed after washing to ensure that the added moisture has been removed.<ref name="raisin processing" />		After the drying process is complete, raisins are sent to processing plants where they are cleaned with water to remove any foreign objects that may have become embedded during the drying process.<ref name="raisin processing" /> Stems and off-grade raisins are also removed. The washing process may cause rehydration, so another drying step is completed after washing to ensure that the added moisture has been removed.<ref name="raisin processing" />

	All steps in the production of raisins are very important in determining the quality of raisins. Sometimes, sulfur dioxide is applied to raisins after the pre treatment step and before drying to decrease the rate of browning caused by the reaction between polyphenol oxidase and phenolic compounds. Sulfur dioxide also helps to preserve flavor and prevent the loss of certain vitamins during the drying process.<ref name="raisin production" />		All steps in the production of raisins are very important in determining the quality of raisins. Sometimes sulfur dioxide is applied to raisins after the pre-treatment step and before drying to decrease the rate of browning caused by the reaction between polyphenol oxidase and phenolic compounds. Sulfur dioxide also helps to preserve flavor and prevent the loss of certain vitamins during the drying process.<ref name="raisin production" />
			{{nutritional value
			\| name=Raisins, seedless
			\| kcal=299
			\| protein=3.3 g
			\| fat=0.25 g
			\| carbs=79.3 g
			\| fiber=4.5 g
			\| sugars=65.2 g
			\| calcium_mg=62
			\| iron_mg=1.8
			\| magnesium_mg=36
			\| phosphorus_mg=98
			\| potassium_mg=744
			\| sodium_mg=26
			\| zinc_mg=0.36
			\| copper_mg=0.27
			\| selenium_ug=0.6
			\| vitC_mg=2.3
			\| thiamin_mg=0.106
			\| riboflavin_mg=0.125
			\| niacin_mg=0.766
			\| pantothenic_mg=0.095
			\| vitB6_mg=0.174
			\| folate_ug=5
			\| choline_mg=11.1
			\| vitE_mg=0.12
			\| vitK_ug=3.5
			\| water=15.5 g
			\| note=
			}}

			==Production==
	===Nutrition and health===
			Estimated global production of raisins in 2023–24 was 1.1 million ]s, led by ], China, Iran, and the United States as the largest producers.<ref name="council">{{cite web \|title=Estimated world raisin/sultana/currant production 2023–2024 \|url=https://inc.nutfruit.org/raisins-sultanas-and-currants-global-statistical-review-2/ \|publisher=International Nut and Dried Fruit Council \|access-date=11 November 2024 \|date=2023}}</ref>
	], Video by ].]]
	Raisins are rich in ], carbohydrates with a low ], and minerals like copper and iron, with a low fat content. Raisins are often recommended as a snack for weight control because they help the control of glucose, the good functioning of the digestive system and the regulation of blood pressure.<ref>{{cite journal \|last1= Kanellos \|first1=P. T. \|last2=Kaliora \|first2=A. C. \|last3=Gioxari \|first3=A. \|last4=Christopoulou \|first4=G. O. \|last5= Kalogeropoulos \|first5=N. \|last6=Karathanos \|first6=V. T. \|title=Absorption and Bioavailability of Antioxidant Phytochemicals and Increase of Serum Oxidation Resistance in Healthy Subjects Following Supplementation with Raisins \|journal=Plant Foods for Human Nutrition \|volume=68 \|issue=4 \|pages=411–5 \|year=2013 \|pmid=24114059 \|doi=10.1007/s11130-013-0389-2 \|s2cid=207233871 }}</ref>

			==Nutrition==
	Replacing unhealthy snacks with raisins as a dietary habit has shown positive benefits in patients with type 2 diabetes, including reduced diastolic blood pressure and increased levels of plasma antioxidants.<ref>{{cite journal \|last1=Kanellos \|first1=P.T. \|last2=Kaliora \|first2=A.C. \|last3=Tentolouris \|first3=N.K. \|last4=Argiana \|first4=V. \|last5=Perrea \|first5=D. \|last6=Kalogeropoulos \|first6=N. \|last7=Kountouri \|first7=A.M. \|last8=Karathanos \|first8=V.T. \|title=A pilot, randomized controlled trial to examine the health outcomes of raisin consumption in patients with diabetes \|journal=] \|volume=30 \|issue=3 \|pages=358–64 \|year=2014 \|pmid=24262513 \|doi= 10.1016/j.nut.2013.07.020 }}</ref>

			Raisins are 15% water, 79% ]s (including 4% ]), and 3% ], and contain negligible ] (table). In a reference amount of {{convert\|100\|g}}, raisins supply 299 ]s and moderate amounts (10–19% DV) of the ] (DV) of ], ], and several ] rich in content (above 20% DV), including ] and ] (table).
	Corinthian raisins are a moderate glycemic index fruit that can be consumed in small amounts even by diabetic patients instead of sweets.<ref>{{cite journal \|last1=Kanellos \|first1=Panagiotis T. \|last2=Kaliora \|first2=Andriana C. \|last3= Liaskos \|first3=Christos \|last4=Tentolouris \|first4=Nikolaos K. \|last5=Perrea \|first5=Despina \|last6=Karathanos \|first6= Vaios T. \|title=A Study of Glycemic Response to Corinthian Raisins in Healthy Subjects and in Type 2 Diabetes Mellitus Patients \|journal=Plant Foods for Human Nutrition \|volume=68 \|issue=2 \|pages=145–8 \|year=2013 \|pmid=23564595 \|doi= 10.1007/s11130-013-0348-y \|s2cid=35753795 }}</ref>

			==Toxicity in animals==
	Antioxidants in Greek raisins may reduce the risk for malignancies in the stomach and colon.<ref>{{cite journal \|last1= Kountouri \|first1=Aggeliki M. \|last2=Gioxari \|first2=Aristea \|last3=Karvela \|first3=Evangelia \|last4=Kaliora \|first4= Andriana C. \|last5=Karvelas \|first5=Michalis \|last6=Karathanos \|first6=Vaios T. \|title=Chemopreventive properties of raisins originating from Greece in colon cancer cells \|journal=Food & Function \|volume=4 \|issue=3 \|pages=366–72 \|year=2013 \|pmid=23211994 \|doi=10.1039/c2fo30259d }}</ref>
			{{Main\|Grape and raisin toxicity in dogs}}
			Raisins can cause ] in both cats and dogs. The cause of this is not known.<ref>{{cite book\|last1=DiBartola \|first1= Stephen P.\|title=Fluid, electrolyte, and acid-base disorders in small animal practice \|date=2012\|publisher=]/]\|location=St. Louis, Mo.\|isbn=978-1-4377-0654-3\|page=155\|edition=4th}}</ref>

			==Gallery==
	Raisins have one of the highest concentrations of ] in dried food, containing between 2 and 3 mg per 100 grams. Boron may be important for maintaining healthy bone and joint quality. It has been shown to disadvantage testosterone synthesis.<ref>{{cite web\|url=http://www.inchem.org/documents/ehc/ehc/ehc204.htm\|title=Boron (EHC 204, 1998)\|work=]}}</ref> According to a study published in "]", golden raisins have a higher antioxidant capacity than sun-dried black raisins do.
			]
			<gallery>
			File:Sunmaid-Raisin-Pile.jpg\|Common commercial raisins
			File:Chunche.jpg\|], ventilated sheds for drying grapes into raisins in ]
			File:Taliparamba grocery.jpg\|Raisins offered for sale at a market in ], India
			</gallery>

	== See also ==		== See also ==
Line 105:		Line 107:
	* ]		* ]
	* ]		* ]
	* ], a ] ] that involved raisins being plucked from a bowl of burning ].		* ], a ] ] that involved raisins being plucked from a bowl of burning ]
	* ], a popular brand of raisins available in North America and the United Kingdom.		* ], a popular brand of raisins available in North America and the United Kingdom
	* ], a fictional music group of anthropomorphized raisins created by ] to promote the food on TV		* ], a fictional music group of anthropomorphized raisins created by ] to promote the food on TV
	* The ], a candy made by coating the dried fruit in ].		* The ], a candy made by coating the dried fruit in ]
	* ]		* ]

	== References ==		== References ==
	{{Reflist\|2}}		{{Reflist}}

	== Further reading ==
	{{Wiktionary\|raisin}}		{{Wiktionary\|raisin}}
	{{Commons}}		{{Commons}}
	{{~~Wikisource1911Enc~~\|Raisin}}		{{EB1911 poster\|Raisin}}
	*{{cite conference \|author1=C. D. Wu \|author2=J. F. Rivero-Cruz \|author3=M. Zhu \|author4=B. Su \|author5=A. D. Kinghorn \| title=Antimicrobial Phytochemicals in Thompson Seedless Raisins (''Vitis vinifera L.'') Inhibit Dental Plaque Bacteria \| booktitle=American Society for Microbiology meeting. 5–9 June. Atlanta \| year=2005 \| url=http://www.abstractsonline.com/viewer/viewAbstractPrintFriendly.asp?CKey={F2F471D3-4975-4531-91A3-99EF6E664CEC}&SKey={A60C59D2-2740-438F-8EDB-FBCA9A4ED3C2}&MKey={382D7E47-BE0B-4BBA-B3A6-E511C92FA999}&AKey={32093528-52DC-4EBE-9D80-29DAD84C92CE} }}
	{{Authority control}}		{{Authority control}}

Latest revision as of 01:42, 8 January 2025

Dark-colored dried large grape For other uses, see Raisin (disambiguation).

A raisin is a dried grape. Raisins are produced in many regions of the world and may be eaten raw or used in cooking, baking, and brewing. In the United Kingdom, Ireland, New Zealand, Australia and South Africa, the word raisin is reserved for the dark-colored dried large grape, with sultana being a golden- or green-colored dried grape, and currant being a dried small Black Corinth seedless grape.

Etymology

The word raisin dates back to Middle English and is a loanword from Old French; in modern French, raisin means "grape", while a dried grape is a raisin sec, or "dry grape". The Old French word, in turn, developed from the Latin word racemus, which means "a bunch of grapes."

Varieties

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Raisin varieties depend on the types of grapes used and appear in a variety of sizes and colors, including green, black, brown, purple, blue, and yellow. Seedless varieties include sultanas (the common American type is known as Thompson Seedless in the United States), Zante currants (black Corinthian raisins, Vitis vinifera L. var. Apyrena), and Flame grapes. Raisins are traditionally sun-dried but may also be artificially dehydrated.

Golden raisins are generally dried in dehydrators with controlled temperature and humidity, which allows them to retain a lighter color and more moisture. They are often treated with sulfur dioxide after drying.

Black Corinth or Zante currants are small, sometimes seedless, raisins that are much darker and have a tart, tangy flavor. They are usually called currants. Muscat raisins are larger and sweeter than other varieties.

Grapes used to produce raisins in the Middle East and Asia include the large black monukka (or manucca) grapes that produce large raisins.

Processing

Drying raisins at Gata de Gorgos, Video by Valencian Museum of Ethnology.

Raisins are produced commercially by drying harvested grape berries. For a grape berry to dry, water inside the grape must be removed completely from the interior of the cells onto the surface of the grape where the water droplets can evaporate. However, this diffusion process is very difficult because the grape skin contains wax in its cuticle, which prevents the water from passing through. In addition to this, the physical and chemical mechanisms located on the outer layers of the grape are adapted to prevent water loss. The three steps to commercial raisin production include pre-treatment, drying, and post-drying processes.

Pre-treatment

Pre-treatment is a necessary step in raisin production to ensure the increased rate of water removal during the drying process. A faster water removal rate decreases the rate of browning and helps to produce more desirable raisins. The historical method of completing this process was developed in the Mediterranean and Asia Minor areas by using a dry emulsion cold dip made of potassium carbonate and ethyl esters of fatty acids. This dip was shown to increase the rate of water loss by two- to three-fold.

Recently, new methods have been developed such as exposing the grapes to oil emulsions or dilute alkaline solutions. These methods can encourage water transfer to the outer surface of grapes which helps to increase the efficiency of the drying process.

Drying

The three types of drying methods are: sun drying, shade drying, and mechanical drying. Sun drying is an inexpensive process; however, environmental contamination, insect infections, and microbial deterioration can occur and the resulting raisins are often of low quality. Additionally, sun drying is a slow process and may not produce the most desirable raisins.

Mechanical drying can be done in a safer and more controlled environment where rapid drying is guaranteed. One type of mechanical drying is to use microwave drying. Water molecules in the grapes absorb microwave energy resulting in rapid evaporation. Microwave drying produces puffed raisins.

Post-drying processes

After the drying process is complete, raisins are sent to processing plants where they are cleaned with water to remove any foreign objects that may have become embedded during the drying process. Stems and off-grade raisins are also removed. The washing process may cause rehydration, so another drying step is completed after washing to ensure that the added moisture has been removed.

All steps in the production of raisins are very important in determining the quality of raisins. Sometimes sulfur dioxide is applied to raisins after the pre-treatment step and before drying to decrease the rate of browning caused by the reaction between polyphenol oxidase and phenolic compounds. Sulfur dioxide also helps to preserve flavor and prevent the loss of certain vitamins during the drying process.

Raisins, seedless

Nutritional value per 100 g (3.5 oz)

Energy

299 kcal (1,250 kJ)

Carbohydrates

79.3 g

Sugars

65.2 g

Dietary fiber

4.5 g

Fat

0.25 g

Protein

3.3 g

Vitamins and minerals


Vitamins	Quantity %DV
Thiamine (B1)	9% 0.106 mg
Riboflavin (B2)	10% 0.125 mg
Niacin (B3)	5% 0.766 mg
Pantothenic acid (B5)	2% 0.095 mg
Vitamin B6	10% 0.174 mg
Folate (B9)	1% 5 μg
Choline	2% 11.1 mg
Vitamin C	3% 2.3 mg
Vitamin E	1% 0.12 mg
Vitamin K	3% 3.5 μg


Minerals	Quantity %DV
Calcium	5% 62 mg
Copper	30% 0.27 mg
Iron	10% 1.8 mg
Magnesium	9% 36 mg
Phosphorus	8% 98 mg
Potassium	25% 744 mg
Selenium	1% 0.6 μg
Sodium	1% 26 mg
Zinc	3% 0.36 mg

Other constituents

Quantity

Water

15.5 g

Link to USDA Database entry

Percentages estimated using US recommendations for adults, except for potassium, which is estimated based on expert recommendation from the National Academies.

Production

Estimated global production of raisins in 2023–24 was 1.1 million tonnes, led by Turkey, China, Iran, and the United States as the largest producers.

Nutrition

Raisins are 15% water, 79% carbohydrates (including 4% fiber), and 3% protein, and contain negligible fat (table). In a reference amount of 100 grams (3.5 oz), raisins supply 299 kilocalories and moderate amounts (10–19% DV) of the Daily Value (DV) of riboflavin, vitamin B6, and several dietary minerals rich in content (above 20% DV), including potassium and copper (table).

Toxicity in animals

Main article: Grape and raisin toxicity in dogs

Raisins can cause kidney failure in both cats and dogs. The cause of this is not known.

Gallery

Common commercial raisins
Chunche, ventilated sheds for drying grapes into raisins in Xinjiang
Raisins offered for sale at a market in Taliparamba, India

References

bakeryandsnacks.com. "Raisin the stakes in 2023: South African sultanas take the lead as the New Year ingredient". bakeryandsnacks.com. Retrieved 20 March 2023.
Dom Costello. "Kew Gardens explanation". Royal Botanic Gardens, Kew. Archived from the original on 5 September 2012. Retrieved 16 January 2013.
^ Harper, Douglas. "raisin". Online Etymology Dictionary.
"Types of Raisins: Currants, Golden Seedless, and More". Berkeley Wellness. Remedy Health Media. Archived from the original on 21 September 2017. Retrieved 20 September 2017.
^ Esmaiili, M.; Sotudeh-Gharebagh, R.; Cronin, K.; Mousavi, M. A. E.; Rezazadeh, G. (2007). "Grape Drying: A Review". Food Reviews International. 23 (3): 257. doi:10.1080/87559120701418335. S2CID 83652015.
^ Christensen, L.P., and Peacock, W.L. (20 April 2013) "The Raisin Drying Process" Archived 12 June 2013 at the Wayback Machine. Raisin Production Manual, University of California at Davis.
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). "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.
"Estimated world raisin/sultana/currant production 2023–2024". International Nut and Dried Fruit Council. 2023. Retrieved 11 November 2024.
DiBartola, Stephen P. (2012). Fluid, electrolyte, and acid-base disorders in small animal practice (4th ed.). St. Louis, Mo.: Saunders/Elsevier. p. 155. ISBN 978-1-4377-0654-3.

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