The quality of food products has received a special attention due to its influence in the human health and nutrition. Thus, trace metal determination in foods has turned an important field in food analysis. Concerning vegetal oils, its metal trace metal composition is a criterion for the assessment of their quality since it is known that these metals affect their rate of oxidation, influencing its characteristics and storage management. As part of the present work the direct determination of Cu and Ni in vegetal oils by Graphite Furnace Atomic Absorption Spectrometry (GFAAS), using the solid sampling strategy was developed: The samples were weighed on a graphite platform boat and inserted in the graphite tube. An adequate temperature program allowed the calibration by external aqueous calibration curves. A good agreement between the results arisen from the proposed and two comparative procedures (EPA 3031 and EPA 3051) confirmed the accuracy of the proposed procedure. The limits of detention in the original samples were 0.002 and 0.001 ìg g-1 for Cu and Ni, respectively. A second part of the work has dealt with the determination of the total content of As, Sb, Se, Te and Bi in samples of vegetable, cereals and pulses by HG AFS. The samples were dry ashed by a proper ashing program, and the hydride generation parameters were optimized, as well as those related to the fluorescence emission. Recovery testes and the analysis of certified reference materials testified the accuracy of the procedure. The content of the studied elements in studied samples were all below those of the European regulation. Finally, a fast, sensitive and simple non chromatographic methodology was developed for the speciation analysis of toxic arsenic species in rice, wheat semolina, chard and aubergines samples. Ultrasound assisted extraction of the toxic arsenic species was carried with 1 mol of L-1 H3PO4 and 0.1% (m/v) Triton XT-114. After the extraction, As(III), As(V), DMA and MMA were quantified by hydride generation atomic fluorescence spectrometry at four different experimental conditions. The fluorescence intensities derived from these four measurements were introduced in a system of four proportional equations, permitting the calculation of the individual species concentration.. The detection limits were 1.3 (3.2), 0.9 (3.0), 1.5 (0.5)) and 0.6 (0,5) ng g-1 for As(III), As(V), DMA and MMA, respectively in the cereals and (vegetable) samples, expressed in terms of the dry weight. Recoveries greater than 90% for the four considered species in samples spiked at 100 ng g-1 level were obtained as well as the assurance of no species interconversion. The speciation analysis of a rice flour reference material certified for total arsenic led to coherent results, which were also in agreement with other speciation studies made on the same CRM.