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Sugar Beet Fiber

Sodium Lignosulfonate Sucrose Fatty Acid Esters Sugar Beet Fiber Vitamin K... [Pg.1028]

Koksel, H. and Ozboy, O. (1999). Effects of sugar beet fiber on cookie quality. Einflufl von Zuckerru benfaserstoffen auf die Qualitat von Cookie-Keksen. Zuckerindustrie 124(7), 542-544. [Pg.129]

Cossack ZT, Rojhani A, Musaiger AO. 1992. The effects of sugar beet fiber supplementation for 5 weeks on zinc, iron and copper status in human subjects. Eur J Clin Nutr 46(3) 221-225. [Pg.178]

Fukushima, M., Nakano, M., Morii, Y., Ohashi, T., Fujiwara, Y., and Sonoyama, K. 2000. Hepatic LDL Receptor mRNA in Rats Is Increased by Dietary Mushroom (Agaricus bisporus) Fiber and Sugar Beet Fiber. J. Nutr., 130(9), 2151-2156. [Pg.710]

Laszlo, J.A., and Dintzisi, F.R. (1994) Crop Residues as Ion-Exchange Materials-Treatment of Soybean Hull and Sugar-Beet Fiber (Pulp) with Epichlorohydrin to Improve Cation-Exchange Capacity and Physical Stability, J. Appl. Polym. Sci. 52, 531-538. [Pg.227]

Guillon, F., Auffret, A., Robertson, J. A., Thibault, J. F. Barry, J. L. (1998). Relationships between physical characteristics of sugar-beet fiber and its fermentabrUty by human faecal flora. Carbohydrate Polymers, 37,185-197. [Pg.1342]

Other Insoluble Fiber Sources. Other iasoluble fiber sources are commercially avaUable as weU, including fiber from sugar-beet pulp, a by-product of sugar productioa. Table 3 Usts other iasoluble fiber sources. [Pg.72]

Potential resources of xylans are by-products produced in forestry and the pulp and paper industries (forest chips, wood meal and shavings), where GX and AGX comprise 25-35% of the biomass as well as annual crops (straw, stalks, husk, hulls, bran, etc.), which consist of 25-50% AX, AGX, GAX, and CHX [4]. New results were reported for xylans isolated from flax fiber [16,68], abaca fiber [69], wheat straw [70,71], sugar beet pulp [21,72], sugarcane bagasse [73], rice straw [74], wheat bran [35,75], and jute bast fiber [18]. Recently, about 39% hemicelluloses were extracted from vetiver grasses [76]. [Pg.13]

Leontowicz M, Gorinstein S, Bartnikowska E, Leontowicz H, Kulasek G and Trakhtenberg S. 2001. Sugar beet pulp and apple pomace dietary fibers improve lipid metabolism in rats fed cholesterol. Food Chem... [Pg.299]

Beet Fiber Dietary Fiber from Beets Sugar Beet Pulp... [Pg.458]

Bacterial Alpha-Amylase Activity, 789 Bacterial (PC) Proteolytic Activity, 811 Baking Soda, 355 Balances and Weights, 729 Balsam Fir Oil, 156 Balsam Peru Oil, 38, 574 Barium Chloride TS, 850 Barium Diphenylamine Sulfonate TS, 850 Barium Hydroxide TS, (S 1)114 Barium Hydroxide, 0.2 N, 856 Barium Standard Solution, 849 Basil Oil, Comoros Type, 39, 574 Basil Oil, European Type, 39, 579 Basil Oil, Italian Type, 39 Basil Oil, Reunion Type, 39 Basil Oil Exotic, 39 Basil Oleoresin, 391, 392 Bay Leaf Oil, 217 Bay Oil, 40, 575 BCD, (S 1)15 Beeswax, White, 40 Beeswax, Yellow, 41 Beet Fiber, (S1 )45 Beet Sugar, 400, (S2)35 Benedict s Qualitative Reagent, 850, 851 Bentonite, 41 Benzaldehyde, 456, 607 Benzaldehyde Glyceryl Acetal, 456, 607, (S1)60... [Pg.119]

Hemicellulose Fibrex, Fibrim, AF Fiber From sugar beets, soybeans and almonds... [Pg.457]

Other organic fiber products which are mostly used in foods as dietary ballast additives are made from wheat, oats, tomato, apples, and citrus. Such dietary fibers are non-starch polysaccharides obtained from cell walls only, which can not be broken down by the digestive enzymes of the human organism and, therefore, constitute inert ballast materials. Color, taste, and odor relate to the fiber source. Unlike cereal brans or dietary fibers derived from, for example, sugar beets, which are often rejected by consumers because of their specific taste, wheat, oat, tomato, apple, and citrus fibers offer physiological properties that are much more readily accepted. [Pg.50]

Polylactic acid is likely to have significant future potential in a variety of applications due to specific advantages compared with conventional petroleum-based polymers. The cost-performance balance of PLA has resulted in its use in many applications, including packaging, fibers, and medicals. The use of PLA as an alternative to petroleum-based polymers will increase demand for agricultural products such as corn and sugar beets, and is an advanced example of sustainable technology. [Pg.438]

Bosch U, Mirocha CJ (1992) Toxin Production by Fusarium Species from Sugar Beets and Natural Occurrence of Zearalenone in Beets and Beet Fibers. Appl Environ Microbiol 58 3233... [Pg.118]

See other pages where Sugar Beet Fiber is mentioned: [Pg.438]    [Pg.458]    [Pg.458]    [Pg.458]    [Pg.459]    [Pg.759]    [Pg.777]    [Pg.797]    [Pg.438]    [Pg.458]    [Pg.458]    [Pg.458]    [Pg.459]    [Pg.759]    [Pg.777]    [Pg.797]    [Pg.8]    [Pg.1324]    [Pg.941]    [Pg.617]    [Pg.141]    [Pg.432]    [Pg.95]    [Pg.1493]    [Pg.227]    [Pg.944]    [Pg.83]    [Pg.84]    [Pg.122]    [Pg.28]    [Pg.742]    [Pg.214]    [Pg.10]    [Pg.195]    [Pg.9]   
See also in sourсe #XX -- [ Pg.458 , Pg.459 ]

See also in sourсe #XX -- [ Pg.45 ]



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