Misplaced Pages

Canola oil: Difference between revisions

Article snapshot taken from[REDACTED] with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
Browse history interactively← Previous editNext edit →Content deleted Content addedVisualWikitext
Revision as of 06:41, 17 February 2017 editBodhi Peace (talk | contribs)Extended confirmed users5,839 editsNo edit summaryTag: Visual edit← Previous edit Revision as of 07:08, 17 February 2017 edit undoBodhi Peace (talk | contribs)Extended confirmed users5,839 edits lead sentenceTags: nowiki added Visual editNext edit →
Line 1: Line 1:
{{About||the South Korean film|Canola (film)|the inventor of the harp in Celtic mythology|Canola (mythology)}} {{About||the South Korean film|Canola (film)|the inventor of the harp in Celtic mythology|Canola (mythology)}}
{{Use dmy dates|date=November 2012}} {{Use dmy dates|date=November 2012}}
'''Canola''' is a ] of ] bred to be low in ]. ''Canola'' may refer to an ] (also known as '''canola oil''') produced from the seed of any of several plant varieties in the ] family of plants, or to the plants themselves, namely cultivars of ''Brassica napus'' L., '']'' subsp. ''oleifera'', syn. ''B. campestris'' L. or '']''. To be called ''canola'', the oil must contain less than 2% ] and the ] must contain less than 30 micromoles of aliphatic ]s per gram.<ref>{{cite web| url = http://www.hc-sc.gc.ca/fn-an/gmf-agm/appro/low_erucic-faible_erucique-eng.php | title = Low Erucic Acid Rapeseed (Lear) Oil Derived From Canola-quality Brassica juncea (L.) CZERN. Lines PC 97-03, PC98-44 AND PC98-45 | publisher = ] | accessdate = 2008-12-29| date = 2003-03-27}}</ref> '''Canola''' may refer to an ] and industrial oil (also known as '''canola oil''') produced from the seed of any of several ]<nowiki/>s of ] bred to be low in ] from the ] family of plants, or to the plants themselves, namely cultivars of ''Brassica napus'' L., '']'' subsp. ''oleifera'', syn. ''B. campestris'' L. or '']''. To be called ''canola'', the oil must contain less than 2% ] and the leftover ] must contain less than 30 micromoles of ] ]s per gram.<ref>{{cite web| url = http://www.hc-sc.gc.ca/fn-an/gmf-agm/appro/low_erucic-faible_erucique-eng.php | title = Low Erucic Acid Rapeseed (Lear) Oil Derived From Canola-quality Brassica juncea (L.) CZERN. Lines PC 97-03, PC98-44 AND PC98-45 | publisher = ] | accessdate = 2008-12-29| date = 2003-03-27}}</ref>


Consumption of the oil is common, and it is claimed not only to be completely safe for people to eat,<ref>{{cite journal |last1= Dupont |first1= J |last2= White |first2= PJ |last3= Johnston |first3= HA |last4= McDonald |first4= BE |last5= Grundy |first5= SM |last6= Bonanome |first6= A |date=October 1989 |title= Food safety and health effects of canola oil |journal= Journal of the ] |volume= 8 |issue= 5 |pages= 360–375 |pmid= 2691543 |doi=10.1080/07315724.1989.10720311}}</ref><ref name=Mayo>{{Cite web| last = Zeratsky| first = Katherine| year = 2009| url = http://www.mayoclinic.com/health/canola-oil/AN01281 | title = Canola Oil: Does it Contain Toxins? | publisher = Mayo Clinic| accessdate = 10 August 2011}}</ref> but also to be a health-promoting plant-derived oil having a relatively low amount of ] and a high amount of ].<ref name="lin"/> However, it is also used as a source of ]. Consumption of the oil has become common in ], and it is claimed not only to be completely safe for people to eat,<ref>{{cite journal |last1= Dupont |first1= J |last2= White |first2= PJ |last3= Johnston |first3= HA |last4= McDonald |first4= BE |last5= Grundy |first5= SM |last6= Bonanome |first6= A |date=October 1989 |title= Food safety and health effects of canola oil |journal= Journal of the ] |volume= 8 |issue= 5 |pages= 360–375 |pmid= 2691543 |doi=10.1080/07315724.1989.10720311}}</ref><ref name=Mayo>{{Cite web| last = Zeratsky| first = Katherine| year = 2009| url = http://www.mayoclinic.com/health/canola-oil/AN01281 | title = Canola Oil: Does it Contain Toxins? | publisher = Mayo Clinic| accessdate = 10 August 2011}}</ref> but also to be a health-promoting plant-derived oil having a relatively low amount of ] and a high amount of ].<ref name="lin"/> However, it is also used as a source of ]. Health concerns center around the fact that standard production may leave trace amounts of chemical solvent and that ] canola may be made from plants that have been ].


==Etymology== ==Etymology==

Revision as of 07:08, 17 February 2017

For the South Korean film, see Canola (film). For the inventor of the harp in Celtic mythology, see Canola (mythology).

Canola may refer to an edible and industrial oil (also known as canola oil) produced from the seed of any of several cultivars of rapeseed bred to be low in erucic acid from the Brassicaceae family of plants, or to the plants themselves, namely cultivars of Brassica napus L., Brassica rapa subsp. oleifera, syn. B. campestris L. or Brassica juncea. To be called canola, the oil must contain less than 2% erucic acid and the leftover meal must contain less than 30 micromoles of aliphatic glucosinolates per gram.

Consumption of the oil has become common in industrialized nations, and it is claimed not only to be completely safe for people to eat, but also to be a health-promoting plant-derived oil having a relatively low amount of saturated fat and a high amount of polyunsaturated fats. However, it is also used as a source of biodiesel. Health concerns center around the fact that standard production may leave trace amounts of chemical solvent and that non-organic canola may be made from plants that have been genetically modified.

Etymology

In the 1970s, the name "canola" was chosen by the Rapeseed Association of Canada because "Can" stands for Canada, and "ola" refers to oil or oleum. One dictionary purports that it stands for Can(ada) + o(il) + l(ow) + a(cid).

History

Close-up of canola blooms
Canola flower
Canola field in New South Wales, Australia

Canola was developed through conventional plant breeding from rapeseed, an oilseed plant already used in ancient civilization as a fuel. The word "rape" in rapeseed comes from the Latin word rapum meaning turnip. Turnip, rutabaga, cabbage, Brussels sprouts, mustard, and many other vegetables are related to the two natural canola varieties commonly grown, which are cultivars of B. napus and B. rapa. The change in name serves to distinguish it from natural rapeseed oil, which has much higher erucic acid content.

Brassica oilseed varieties are some of the oldest plants cultivated by humanity, with documentation of its use in India 4,000 years ago, and use in China and Japan 2,000 years ago. Its use in Northern Europe for oil lamps is documented to the 13th century. Its use was limited until the development of steam power, when machinists found rapeseed oil clung to water- and steam-washed metal surfaces better than other lubricants. World War II caused high demand for the oil as a lubricant for the rapidly increasing number of steam engines in naval and merchant ships. When the war blocked European and Asian sources of rapeseed oil, a critical shortage developed, and Canada began to expand its limited rapeseed production.

After the war, demand declined sharply, and farmers began to look for other uses for the plant and its products. Rapeseed oil extracts were first put on the market in 1956–1957 as food products, but these suffered from several unacceptable characteristics. Rapeseed oil had a distinctive taste and a disagreeable greenish color, due to the presence of chlorophyll. It also contained a high concentration of erucic acid. Experiments on animals have pointed to the possibility that erucic acid, consumed in large quantities, may cause heart damage, although Indian researchers have published findings that call into question these conclusions and the implication that the consumption of mustard or rapeseed oil is dangerous. Feed meal from the rapeseed plant also was not particularly appealing to livestock, because of high levels of sharp-tasting compounds called glucosinolates.

Canola was bred from rapeseed at the University of Manitoba, Canada, by Keith Downey and Baldur R. Stefansson in the early 1970s, having then a different nutritional profile than present-day oil in addition to much less erucic acid.

A variety developed in 1998 is considered to be the most disease- and drought-resistant canola variety to date. This and other recent varieties have been produced using genetic engineering. In 2011, 26% of the acres sown were genetically modified (biotech) canola.

Canola was originally a trademark, but is now a generic term for edible varieties of rapeseed oil in North America and Australia. In Canada, an official definition of canola is codified in Canadian law.

Production and trade

Canola being grown in South Africa just outside the City of Cape Town. Table Mountain is clearly visible in the far right. Canola is a relatively new crop in the country and was first cultivated in the early 1990s.

As of the 2013/2014 season, production in the ten leading territories was:

Country Production (1000 MT)
European Union 21,102
Canada 17,960
China 14,458
India 7,300
Australia 3,760
Ukraine 2,352
Russia 1,393
United States 1,004
Belarus 676
Pakistan 320
Kazakhstan 242

The main price discovery mechanism for worldwide canola trade is the ICE Futures Canada (formerly Winnipeg Commodity Exchange) canola futures contract. Rapeseed is traded on the Euronext exchange.

Canola oil

Bottle of canola cooking oil

Canola oil is made at a processing facility by slightly heating and then crushing the seed. Almost all commercial canola oil is then extracted using hexane which is recovered at the end of processing. Finally, the canola oil is refined using water precipitation and organic acid to remove gums and free fatty acids, filtering to remove color, and deodorizing using steam distillation. Cold-pressed and expeller-pressed canola oil are also produced on a more limited basis. About 44% of a seed is oil, with the remainder as a canola meal used for animal feed. About 23 kg (51 lb) of canola seed makes 10 L (2.64 US gal) of canola oil. Canola oil is a key ingredient in many foods. Its reputation as a healthy oil has created high demand in markets around the world, and overall it is the third-most widely consumed vegetable oil.

The oil has many non-food uses and, like soybean oil, is often used interchangeably with non-renewable petroleum-based oils in products, including industrial lubricants, biodiesel, candles, lipsticks, and newspaper inks, depending on the price on the spot market.

The average density of canola oil is 0.92 g/ml.

Health information

A review in 2013 of health effects of canola oil came to overall favorable results, including a substantial reduction in total cholesterol and low-density lipoprotein (LDL) cholesterol, and an increase in tocopherol levels and improved insulin sensitivity, compared with other sources of dietary fat.

Compound Family % of total
Oleic acid
ω-9
61%
Linoleic acid
ω-6
21%
Alpha-linolenic acid
ω-3
11% 9%
Saturated fatty acids
7%
Palmitic acid
4%
Stearic acid
2%
Trans fat
0.4%
Erucic acid
0.01% <0.1%

Regarding individual components, canola oil is low in saturated fat and contains both omega-6 and omega-3 fatty acids in a ratio of 2:1. It is high in monounsaturated fats, which may decrease the risk of heart disease.

Canola oil has been given a qualified health claim from the United States Food and Drug Administration for lowering the risk of coronary heart disease resulting from its significant content of cholesterol-lowering unsaturated fats; the allowed claim for food labels states:

"Limited and not conclusive scientific evidence suggests that eating about 1 ½ tablespoons (19 grams) of canola oil daily may reduce the risk of coronary heart disease due to the unsaturated fat content in canola oil. To achieve this possible benefit, canola oil is to replace a similar amount of saturated fat and not increase the total number of calories you eat in a day. One serving of this product contains grams of canola oil."

Erucic acid issues

Main article: Erucic acid

Although wild rapeseed oil contains significant amounts of erucic acid, the cultivars used to produce commercial, food-grade canola oil were bred to contain less than 2% erucic acid, an amount deemed not significant as a health risk. To date, no health effects have been associated with dietary consumption of erucic acid by humans; but tests of erucic acid metabolism in other species imply that higher levels may be detrimental. Canola oil produced using genetically modified plants has also not been shown to explicitly produce adverse effects.

The erucic acid content in canola oil has been reduced over the years. In western Canada, a reduction occurred from the average content of 0.5% between 1987 and 1996 to a current content of 0.01% from 2008 to 2015. Other reports also show a content lower than 0.1% in Australia and Brazil.

Canola oil poses no unusual health risks, and its consumption in food-grade forms is generally recognized as safe by the United States Food and Drug Administration.

Biodiesel

Main article: Biodiesel

Europe has invested heavily in infrastructure to use canola oil for biodiesel, spurred by EU biodiesel policy initiatives.

Comparison to other vegetable oils

Properties of vegetable oils
The nutritional values are expressed as percent (%) by mass of total fat.
Type Processing
treatment		 Saturated
fatty acids		 Monounsaturated
fatty acids		 Polyunsaturated
fatty acids		 Smoke point
Total Oleic
acid
(ω−9)		 Total α-Linolenic
acid
(ω−3)		 Linoleic
acid
(ω−6)		 ω−6:3
ratio
Avocado 11.6 70.6 52–66
 13.5 1 12.5 12.5:1 250 °C (482 °F)
Brazil nut 24.8 32.7 31.3 42.0 0.1 41.9 419:1 208 °C (406 °F)
Canola 7.4 63.3 61.8 28.1 9.1 18.6 2:1 204 °C (400 °F)
Coconut 82.5 6.3 6 1.7 0.019 1.68 88:1 175 °C (347 °F)
Corn 12.9 27.6 27.3 54.7 1 58 58:1 232 °C (450 °F)
Cottonseed 25.9 17.8 19 51.9 1 54 54:1 216 °C (420 °F)
Cottonseed hydrogenated 93.6 1.5 0.6 0.2 0.3 1.5:1
Flaxseed/linseed 9.0 18.4 18 67.8 53 13 0.2:1 107 °C (225 °F)
Grape seed   10.4 14.8 14.3   74.9 0.15 74.7 very high 216 °C (421 °F)
Hemp seed 7.0 9.0 9.0 82.0 22.0 54.0 2.5:1 166 °C (330 °F)
High-oleic safflower oil 7.5 75.2 75.2 12.8 0 12.8 very high 212 °C (414 °F)
Olive (extra virgin) 13.8 73.0 71.3 10.5 0.7 9.8 14:1 193 °C (380 °F)
Palm 49.3 37.0 40 9.3 0.2 9.1 45.5:1 235 °C (455 °F)
Palm hydrogenated 88.2 5.7 0
Peanut 16.2 57.1 55.4 19.9 0.318 19.6 61.6:1 232 °C (450 °F)
Rice bran oil 25 38.4 38.4 36.6 2.2 34.4 15.6:1 232 °C (450 °F)
Sesame 14.2 39.7 39.3 41.7 0.3 41.3 138:1
Soybean 15.6 22.8 22.6 57.7 7 51 7.3:1 238 °C (460 °F)
Soybean partially hydrogenated 14.9 43.0 42.5 37.6 2.6 34.9 13.4:1
Sunflower 8.99 63.4 62.9 20.7 0.16 20.5 128:1 227 °C (440 °F)
Walnut oil unrefined 9.1 22.8 22.2 63.3 10.4 52.9 5:1 160 °C (320 °F)

Genetic modification concerns

Blooming Canola field in Saskatchewan, Canada.

A genetically engineered rapeseed that is tolerant to herbicide was first introduced to Canada in 1995 (Roundup Ready canola). In 2009, 90% of the Canadian crop was herbicide-tolerant. As of 2005, 87% of the canola grown in the US was genetically modified. A 2010 study conducted in North Dakota found glyphosate- or glufosinate-resistance transgenes in 80% of wild natural rapeseed plants, and a few plants that were resistant to both herbicides. The escape of the genetically modified plants has raised concerns that the build-up of herbicide resistance in feral canola could make it more difficult to manage these plants using herbicides. However one of the researchers agrees that ".. feral populations could have become established after trucks carrying cultivated GM seeds spilled some of their load during transportation." She also notes that the GM canola results they found may have been biased as they only sampled along roadsides.

In 2016 a company introduced into the US and Canada a sulfonylurea herbicide tolerant canola variety that was developed using canola's natural oligonucleotide repair mechanisms and targeting glyphosate resistance. They claimed that it was non-transgenic because no foreign genes were introduced and it was indistinguishable from varieties developed naturally by plant breeding.

Legal concerns

Legal issues include whether some countries allow genetically modified canola to be grown, and litigation between farmers and patent holders.

Regulation

Main article: Regulation of the release of genetically modified organisms

There are several forms of genetic modification, such as herbicide (glyphosate and glufosinate, for example) tolerance and different qualities in canola oil. Regulation varies from country to country; for example, glyphosate-resistant canola has been approved in Australia, Canada, China, Japan, Korea, Mexico, Philippines, and the US, while Laurical, a product with a different oil composition, has been approved for growing only in Canada and the US.

In 2003, Australia's gene technology regulator approved the release of canola genetically modified to make it resistant to glufosinate ammonium, a herbicide. The introduction of the genetically modified crop to Australia generated considerable controversy. Canola is Australia's third biggest crop, and is used often by wheat farmers as a break crop to improve soil quality. As of 2008, the only genetically modified crops in Australia were canola, cotton, and carnations.

Litigation

Genetically modified canola has become a point of controversy and contentious legal battles. In one high-profile case (Monsanto Canada Inc. v. Schmeiser) the Monsanto Company sued Percy Schmeiser for patent infringement after he replanted canola seed he had harvested from his field, which he discovered was contaminated with Monsanto's patented glyphosate-tolerant canola by spraying it with glyphosate, leaving only the resistant plants. The Supreme Court ruled that Percy was in violation of Monsanto's patent because he knowingly replanted the resistant seed that he had harvested and also imposing fees of over $200,000 on Schmeiser, but he was not required to pay Monsanto damages since he did not benefit financially from its presence. On 19 March 2008, Schmeiser and Monsanto Canada Inc. came to an out-of-court settlement whereby Monsanto would pay for the clean-up costs of the contamination, which came to a total of C$660.

See also

References

  1. "Low Erucic Acid Rapeseed (Lear) Oil Derived From Canola-quality Brassica juncea (L.) CZERN. Lines PC 97-03, PC98-44 AND PC98-45". Health Canada. 27 March 2003. Retrieved 29 December 2008.
  2. Dupont, J; White, PJ; Johnston, HA; McDonald, BE; Grundy, SM; Bonanome, A (October 1989). "Food safety and health effects of canola oil". Journal of the American College of Nutrition. 8 (5): 360–375. doi:10.1080/07315724.1989.10720311. PMID 2691543.
  3. ^ Zeratsky, Katherine (2009). "Canola Oil: Does it Contain Toxins?". Mayo Clinic. Retrieved 10 August 2011.
  4. ^ Lin L, Allemekinders H, Dansby A, Campbell L, Durance-Tod S, Berger A, Jones PJ (2013). "Evidence of health benefits of canola oil". Nutr. Rev. 71 (6): 370–85. doi:10.1111/nure.12033. PMC 3746113. PMID 23731447.
  5. Canola Council of Canada. "What is Canola?". Retrieved 16 October 2013.
  6. AgCanada. "Canola was a "calculated" risk". Retrieved 16 October 2013.
  7. ^ Canola. 2016. Retrieved 16 October 2013. {{cite encyclopedia}}: |work= ignored (help)
  8. ^ Snowdon R et al. "Oilseed Rape". Chapter 2 in Genome Mapping and Molecular Breeding in Plants: OIlseeds. Ed, Chittaranjan Kole. Springer, 2007
  9. Ghafoorunissa (1996). "Fats in Indian Diets and Their Nutritional and health Implications". Lipids. 31 (1): S287 – S291. doi:10.1007/BF02637093. PMID 8729136.
  10. Shenolikar, I (1980). "Fatty Acid Profile of Myocardial Lipid in Populations Consuming Different Dietary Fats". Lipids. 15 (11): 980–982. doi:10.1007/BF02534427.
  11. Bellenand, JF; Baloutch, G; Ong, N; Lecerf, J (1980). "Effects of Coconut Oil on Heart Lipids and on Fatty Acid Utilization in Rapeseed Oil". Lipids. 15 (11): 938–943. doi:10.1007/BF02534418.
  12. Achaya, KT (1987). "Fat Status of Indians – A Review". Journal of Scientific & Industrial Research. 46 (3): 112–126.
  13. Indu, M; Ghafoorunissa (1992). "n-3 Fatty Acids in Indian Diets – Comparison of the Effects of Precursor (Alpha-Linolenic Acid) vs Product (Long chain n-3 Poly Unsaturated Fatty Acids)". Nutrition Research. 12 (4–5): 569–582. doi:10.1016/S0271-5317(05)80027-2.
  14. "Richard Keith Downey: Genetics". science.ca. 2007. Retrieved 29 December 2008.
  15. Storgaard, AK (2008). "Stefansson, Baldur Rosmund". The Canadian Encyclopedia. Retrieved 29 December 2008.
  16. Barthet, V. "Canola". The Canadian Encyclopedia. Retrieved 29 December 2008.
  17. "Biotech Canola – Annual Update 2011" (PDF). International Service for the Acquisition of Agri-Biotech Applications. Retrieved 26 May 2013.
  18. "Canola Varieties". Canola Growers Manual. Canola Council of Canada. Retrieved 12 April 2008.
  19. "OVERVIEW: CANOLA IN SOUTHAFRICA" (PDF). Protein Research Foundation.
  20. USDA Foreign Agricultural Service Production, Supply and Distribution Online Database, query for Commodity: "Oilseed, Rapeseed"; Data Type: "Production"; Country: "All countries"; Year: "2013". Accessed 23 October 2014
  21. ^ "Steps in Oil and Meal Processing". Canola Council of Canada. 2016. Retrieved 30 April 2016.
  22. ^ "What is canola oil?". Canola Council of Canada. 2016. Retrieved 30 April 2016.
  23. Ash M (15 March 2016). "Soybeans & Oil Crops". US Department of Agriculture, Economic Research Service. Retrieved 30 April 2016.
  24. "Section 3.1: Leaking Tank Experiments with Orimulsion and Canola Oil" (PDF). NOAA Technical Memorandum NOS OR&R 6. Ocean Service of the National Oceanic and Atmospheric Administration. December 2001.
  25. ^ "Comparison of Dietary Fats Chart" (PDF). Canola Council of Canada. Retrieved 3 September 2008.
  26. ^ USDA National Nutrient Database for Standard Reference, Release 21 (2008)
  27. DeFilippis, Andrew P.; Laurence S. Sperling. "Understanding omega-3's" (PDF). Archived from the original (PDF) on 22 October 2007.
  28. USDA National Nutrient Database for Standard Reference, Release 22 (2009)
  29. ^ J. Barthet, Véronique J. (2015). "Quality of western Canadian Canola 2015" (PDF) (Press release). Canadian Grain Research Laboratory: Canadian Grain Commission. ISSN 1700-2222. Retrieved 21 December 2016.
  30. ^ D.E., Seberry; D.W., McCaffery; T.M., Kingham (2016). "Quality of Australian canola 2015–16" (PDF) (Press release). Australia: NSW Department of Primary Industries - Australian Oilseeds Federation. ISSN 1322-9397. Retrieved 21 December 2016.
  31. ^ Heidy Aguilera Fuentes, Paula; Jose Ogliaria, Paulo; Carlos Deschamps, Francisco; Barrera Arellano, Daniel; Mara Block, Jane (2011). "Centro de Ciências Agrárias" [Agricultural Science Center]. Avaliação da Qualidade de Óleos de Soja, Canola, Milho e Girassol Durante o Armazenamento (PDF) (Thesis) (in Portuguese). Florianópolis, Brazil: Universidade Federal de Santa Catarina. OCLC 817268651. Retrieved 21 December 2016.
  32. "Protect Your Heart: Choose Fats Wisely" (PDF). American Diabetes Association. 2004. Retrieved 3 September 2008.
  33. Schneeman BO (6 October 2006). "Qualified Health Claims, Letter of Enforcement Discretion U.S. Food and Drug Administration: Unsaturated Fatty Acids from Canola Oil and Reduced Risk of Coronary Heart Disease". US Food and Drug Administration. Retrieved 3 September 2008.
  34. Sahasrabudhe, M. R. (1977). "Crismer values and erucic acid contents of rapeseed oils". Journal of the American Oil Chemists' Society. 54 (8): 323. doi:10.1007/BF02672436.
  35. ^ U.S. Dept. of Health and Human Services, CFR - Code of Federal Regulations Title 21 1 April 2010.
  36. Food Standards Australia New Zealand (June 2003) Erucic acid in food: A Toxicological Review and Risk Assessment Technical report series No. 21; Page 4 paragraph 1; ISBN 0-642-34526-0, ISSN 1448-3017
  37. ^ Luger CL et al. Food Safety and Foodborne Toxicants. Chapter 14 in Hayes' Principles and Methods of Toxicology, Sixth Edition. Eds A. Wallace Hayes, Claire L. Kruger. CRC Press, 2014 ISBN 9781842145371. Quote: "In humans. however. although the long-term use of Lorenzo's oil (oleic acid and erucic acid) in the treatment of adrenoleukodystrophy or adrenomyeloneuropathy leads to thrombocytopenia and lymphopenia (Unkrig et al. 1994), adverse effects from dietary consumption of erucic acid have not been reported."
  38. Reddy, Chada S.; Hayes, A. Wallace (2007). "Foodborne Toxicants". In Hayes, A. Wallace (ed.). Principles and methods of toxicology (5th ed.). London, UK: Informa Healthcare. p. 640. ISBN 0-8493-3778-X.
  39. D.R., DeClercq; J.K., Daun; K.H., Tipples (1997). "Quality of Western Canadian Canola 1997" (PDF) (Press release). Canadian Grain Research Laboratory: Canadian Grain Commission. ISSN 0836-1657. Retrieved 21 December 2016.
  40. USDA Economic Research Service. Last updated: 10 October 2012 Canola
  41. ^ "US National Nutrient Database, Release 28". United States Department of Agriculture. May 2016. All values in this table are from this database unless otherwise cited or when italicized as the simple arithmetic sum of other component columns.
  42. "Fats and fatty acids contents per 100 g of Avocado oil". Nutritiondata.com, Conde Nast from the USDA National Nutrient Database, Standard Release 21. 2014. Archived from the original on 31 August 2014. Retrieved 13 January 2025. Values from Nutritiondata.com (SR 21) may need to be reconciled with most recent release from the USDA SR 28 as of Sept 2017.
  43. "USDA Specifications for Vegetable Oil Margarine Effective August 28, 1996" (PDF).
  44. "Avocado oil, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  45. Ozdemir, Feramuz; Topuz, Ayhan (June 2004). "Changes in dry matter, oil content and fatty acids composition of avocado during harvesting time and post-harvesting ripening period". Food Chemistry. 86 (1): 79–83. doi:10.1016/j.foodchem.2003.08.012.
  46. Wong M, Requejo-Jackman C, Woolf A (April 2010). "What is unrefined, extra virgin cold-pressed avocado oil?". Aocs.org. The American Oil Chemists' Society. Retrieved 26 December 2019.
  47. "Brazil nut oil, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  48. ^ Katragadda, Harinageswara Rao; Fullana, Andrés; Sidhu, Sukh; Carbonell-Barrachina, Ángel A. (May 2010). "Emissions of volatile aldehydes from heated cooking oils". Food Chemistry. 120 (1): 59–65. doi:10.1016/j.foodchem.2009.09.070.
  49. "Canola oil, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  50. ^ Wolke RL (16 May 2007). "Where There's Smoke, There's a Fryer". The Washington Post. Retrieved 5 March 2011.
  51. "Coconut oil, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  52. "Corn oil, industrial and retail, all purpose salad or cooking, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  53. "Cottonseed oil, salad or cooking, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  54. "Cottonseed oil, industrial, fully hydrogenated, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  55. "Linseed/Flaxseed oil, cold pressed, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  56. Garavaglia J, Markoski MM, Oliveira A, Marcadenti A (2016). "Grape Seed Oil Compounds: Biological and Chemical Actions for Health". Nutrition and Metabolic Insights. 9: 59–64. doi:10.4137/NMI.S32910. PMC 4988453. PMID 27559299.
  57. Callaway, James; Schwab, Ursula; Harvima, Ilkka; Halonen, Pirjo; Mykkänen, Otto; Hyvönen, Pekka; Järvinen, Tomi (April 2005). "Efficacy of dietary hempseed oil in patients with atopic dermatitis". Journal of Dermatological Treatment. 16 (2): 87–94. doi:10.1080/09546630510035832. PMID 16019622.
  58. Melina V. "Smoke points of oils" (PDF). veghealth.com. The Vegetarian Health Institute.
  59. "Safflower oil, salad or cooking, high oleic, primary commerce, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  60. "Olive oil, salad or cooking, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  61. "Palm oil, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  62. "Palm oil, industrial, fully hydrogenated, filling fat, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  63. "Oil, peanut". FoodData Central. usda.gov.
  64. Orthoefer, Frank T. (2020). "Rice Bran Oil". Bailey's Industrial Oil and Fat Products. pp. 1–25. doi:10.1002/047167849X.bio015.pub2. ISBN 978-0-471-38460-1.
  65. "Rice bran oil". RITO Partnership. Retrieved 22 January 2021.
  66. "Oil, sesame, salad or cooking". FoodData Central. fdc.nal.usda.gov. 1 April 2019.
  67. "Soybean oil, salad or cooking, fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  68. "Soybean oil, salad or cooking, (partially hydrogenated), fat composition, 100 g". US National Nutrient Database, Release 28, United States Department of Agriculture. May 2016. Retrieved 6 September 2017.
  69. "FoodData Central". fdc.nal.usda.gov.
  70. "Walnut oil, fat composition, 100 g". US National Nutrient Database, United States Department of Agriculture.
  71. "Smoke Point of Oils". Baseline of Health. Jonbarron.org.
  72. Beckie, Hugh et al (Autumn 2011) GM Canola: The Canadian Experience Farm Policy Journal, Volume 8 Number 8, Autumn Quarter 2011. Retrieved 20 August 2012
  73. Johnson, Stanley R. et al Quantification of the Impacts on US Agriculture of Biotechnology-Derived Crops Planted in 2006 National Center for Food and Agricultural Policy, Washington DC, February 2008. Retrieved 12 August 2010.
  74. "GM crop escapes into the American wild". Retrieved 24 August 2011.
  75. "Canola Crush". SeedWorld. 30 January 2017. Retrieved 31 January 2017.
  76. eurofins. Last updated 31 January 2014 Genetically Modified Canola
  77. "GM canola gets the green light". Sydney Morning Herald. 1 April 2003. Retrieved 20 October 2007.
  78. for example Price, Libby (6 September 2005). "Network of concerned farmers demands tests from Bayer". Australian Broadcasting Corporation. Retrieved 10 October 2007. and "Greenpeace has the last laugh on genetic grains talks". Australian Broadcasting Corporation. 13 March 2003. Retrieved 20 October 2007. also Cauchi, Stephen (25 October 2003). "GM: food for thought". The Age. Retrieved 20 October 2007.
  79. GM Crops and Stockfeed
  80. GM Carnations in Australia
  81. Federal Court of Appeal of Canada. Monsanto Canada Inc. v. Schmeiser (C.A.) [2003] 2 F.C. 165. Retrieved 25 March 2006.
  82. Hartley, Matt (20 March 2008). "Grain Farmer Claims Moral Victory in Seed Battle Against Monsanto". Globe and Mail. Retrieved 14 May 2016.

External links

Edible fats and oils
Fats
Pork fats
Beef/Mutton fats
Dairy fats
Poultry fats
Other animal fats
Vegetable fats
Oils
Marine oils
Vegetable
oils (List)
Fruit oils
Nut oils
Seed oils
See also
Cooking oil
Plant oil
Essential oil
Brassica
Species
Cultivars
Categories:
Canola oil: Difference between revisions Add topic