Anon. 1985. Analytical methods for determination of organo chlorine pesticide residue in food and agricultural products. ISIRI No. 2664. 1st Ed. Institute of Standards and Industrial Research of Iran. (in Farsi)
Anon. 2003a. Approved Methods of the AACC. American Association of Cereal Chemists. St. Paul, MN.
Anon. 2003b. Pesticides –Maximum residue limit of pesticides – Fruit vegetables. ISIRI No. 12581. 1st Ed. Institute of Standards and Industrial Research of Iran. (in Farsi)
Anon. 2003c. Pesticides –Maximum residue limit of pesticides – Cereals. ISIRI No. 13120. 1st Ed. Institute of Standards and Industrial Research of Iran. (in Farsi)
Bergman, E. L., Fredlund, K., Reinikainen, P. and Sandberg, A. S. 2001. Development of predictive models for optimization of phytate degradation in wheat and rye during hydrothermal processing. Cereal Chem. 78, 144-150.
Carlson, D. and Poulsen, H. D. 2003. Phytate degradation in soaked and fermented activity, pH and temperature. Animal Feed Sci. Tech. 103, 141-154.
Ecobichon, D. J. 2001. Pesticide use in developing. Toxicology.
160(1-3): 27-33.
Febles, C. I., Arias, A., Hardisson, A., Rodriguez-Alvarez, C. and Sierra, A. 2002. Phytic acid level in wheat flours. J. Cereal Sci. 36, 19-23.
Fredlund, K., Asp, N. G., Larsson, M., Marklinder, I. and Sandberg, A. S. 1997. Phytate reduction in whole grains of wheat, rye, barley and oats after hydrothermal treatment. J. Cereal Sci. 25, 83–91.
Garcia – Estepa, R. M., Guerra – Hernandez, E. and Garcia Villanova, B. 1999. Phytic acid Content in milled cereal products and breads. Food Res. Inter. 32, 217-221.
Holland, P. T., Hamilton, D. J., Ohlin, B. and Skidmore, M. W. 1994. Effects of storage and processing on pesticide residues in plant products. Pure Appl. Chem. 66(2): 335-356.
Jacobs, Jr. and Gallaher, D. D. 2004. Whole grain intake and cardiovascular disease: A Review. Curr. Atheroscler. Rep. 6, 415-423.
Jayaraja, C. N., Tang, H. R. and Selvendran, R. R. 1997. Dephytinization of wheat bran and the sequences for fiber matrix non-starch polysaccharides. Food Chem. 58, 5-12.
Kaushik, G., Santosh, S. and Naik, S. N. 2009. Food processing, a tool to pesticide residue dissipation. A Review. Food Res. Inter. 42, 26-40.
Larsson, S. C., Giovannucci, E., Bergkvist, L. and Wolk, A. 2005. Whole grain consumption and risk of colorectal cancer: A population-based cohort of 60,000 women. British J. Cancer. 92, 1803-1807.
Lgbedioh, S. O., Olugbemi, T. O. and Akapapunam, M. A. 1994. Effect of processing on phytic acid level and some constituents in bambara groundnut (Vigna subterranean) and pigeon pea (Cajanus cajan). J. Food Chem. 50, 147-151.
Liu, B. L., Rafiq, A., Tzeng, Y. M. and Rob, A. 1998. The induction and characterization of phytase and beyond. Enzymatic Microbiol. Tech. 22, 415-424.
Lopez, H., Krespine, W., Messager, A. and Remesy, C. 2001. Rolonged fermentation of whole wheat sourdough reduces phytate level and increases souble magnesium. J. Agric. Food Chem. 44, 2657-2662.
Mahgoub, S. E. O. and Elhag, S. A. 1998. Effect of milling, soaking, malting, heat-treatment and fermentation on phytate level four sudanese sorghoum cultivars. J. Food Chem. 61, 77-80.
Miyahara, M. and Saito, Y. 1994. Effects of the processing steps in tofu production on pesticide residues. J. Agric. Food Chem. 42(2): 369-373.
Mosharraf, L., Kadivar, M. and Shahedi, M. 2009. Effect of hydrothermaled bran on physicochemical, rheological and microstructural characteristics of Sangak bread. J. Cereal Sci. 49, 398-404.
Nahapetian, A. and Bassiri, A. 1975. Changes in concentrations and interrelationships of phytate, phosphorus, magnesium, calcium, and zinc in wheat during maturation. J. Agric. Food Chem. 23, 1179-1182.
Rehinan, Z., Rashid, M. and shah, W. H. 2004. Insoluble dietary fibre components of food legumes as affected by soaking and cooking processes. J. Food Chem. 85, 245-249.
Sharma, J., Satya, S., Kumar, V. and Tewary, D. K. 2005. Dissipation of pesticides during bread making. J. Chem. Health Food Safety. 12, 17-22.
Soliman, K. M. 2001. Changes in concentration of pesticide residues in potatoes during washing and home preparation. Food Chem. Toxicil. 39, 887-891.
Toker, I. and Bayindirli, A. 2003. Enzymatic peeling of apricots, nectarines and peaches. Lebensm. Wiss. Technol. 36(2): 215-221
Turk, M., Sandberg, A. S., Carlsson, N. G. and Andlid. T. 2000. Inositol hydrolysis by bakers yeast: Capacity kinetics and degradation products. J. Agric. Food Chem. 48, 100-104.
Ueno, E., Oshima, H., Saito, I. and akazawa, H. 2003. Determination of organophosphorus pesticide residues in onion and Welsh onion by gas chromatography with pulsed flame photometric detector.
J. Pesticide Sci. 28(4): 422-428.
Uygun, U. 2009. Degradation of organophosphorus pesticides in wheat during cookie processing. Food Chem. 117,261-264.
Uygun, U., Koksel, H. and Atli, A. 2005. Residue levels of malathion and its metabolites and fenitrothion in post-harvest treated wheat during storage, milling and baking. Food Chem. 92, 643-647.
Uygun, U., Senoz, B. and Koksel, H. 2008. Dissipation of organophosphorus pesticides in wheat during pasta processing. Food Chem. 109, 355-359.
Wang, N., Hatcher, D. W. and Gawalko, E. J. 2008. Effect of variety and processing on nutrients and cretain – nutrients in field peas (Pisum sativum). J. Food Chem. 111, 132-138.