In the present study, 31 samples of soybeans grown within a defin

In the present study, 31 samples of soybeans grown within a defined area within the state of Iowa in the US, were collected. The influence of agricultural practice on (i) residues LY2109761 of glyphosate, AMPA and other pesticide compounds, and (ii) the nutritional and elemental composition of “ready-to-market” soybeans was analysed. We used methods of multivariate analyses, such as cluster and discriminants analyses, and attempted to track differences (if any), both between individual samples and

between the three management systems through which they were produced, namely GM, conventional and organic systems. With H0 as substantial equivalence between the categories of soy, the following hypotheses were tested: H1: The residues of pesticides in soybeans will be influenced by the agricultural practice they have been produced under, specifically: (a). GM-soybeans contain high residue levels of glyphosate and AMPA due to repeated spraying of the plants with glyphosate-based herbicides throughout the production season. Other pesticides may also be present according to use. H2: The detailed nutritional

composition and hence, the nutritional quality (i.e., total fat and protein, main sugars, ash, amino acids, fatty acids and micronutrients/basic elements) of soybean samples 5-FU manufacturer will be influenced by the agricultural practices under which they have been produced. Three kg samples of whole soybeans were obtained from n = 31 individual fields/sites in Iowa, USA. Seed type (genetic variety), Baf-A1 supplier agricultural practice, i.e.

whether samples were ‘GM’ (n = 10), ‘conventional’ (n = 10) or ‘organic’ (n = 11), and pesticide use was noted for all samples ( Table 1). All individual soybean samples were analysed for their nutritional content, including total protein, total fat, dry matter, starch, ash, minerals, trace elements, vitamin B6, amino acid and fatty acid composition, in addition to the relevant pesticides. Dry matter was analysed by drying at 103 °C for 24 h, ash by weight after burning at 540 °C and lipid after extraction with ethyl-acetate. Nitrogen was measured with a nitrogen determinator (LECO, FP-428, Leco Corporation, St Joseph, MI, USA) according to the Association of Official Agricultural Chemists official methods of analysis and protein calculated as N X 6·25. Glycogen was measured after enzymatic degradation. Amino acids and Vitamin B6 were determined by high pressure liquid chromatography (HPLC) methods and fatty acids by GLC (gas liquid chromatography). Multielement determination in the soybeans was carried out by inductively coupled plasma MS. Eurofins laboratories GfA, Otto-Hahn-Str.

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