Stefano Spalla scite author profile

Nineteen beer brands from the Italian market were surveyed for the presence of arsenic, cadmium and lead in January of 2007. Detection was performed by means of inductively coupled plasma‐mass spectrometry (ICP‐MS). Average arsenic content was 10.82±5.54 μg/L, while cadmium (0.16±0.15 μg/L) and lead (1.84±3.24 μg/L) were significantly lower (P<0.05). Overall, this survey indicated that beer may contribute heavy metals to the diet. Nevertheless, the dietary exposure to these contaminants is unlikely to constitute a hazard to the consumer's health due to the low level of contamination found and to the low annual per capita consumption of beer in Italy.

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Determination of rare earth elements in tomato plants by inductively coupled plasma mass spectrometry techniques

Spalla

Baffi

Barbante

et al. 2009

Rapid Comm Mass Spectrometry

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In recent years identification of the geographical origin of food has grown more important as consumers have become interested in knowing the provenance of the food that they purchase and eat. Certification schemes and labels have thus been developed to protect consumers and genuine producers from the improper use of popular brand names or renowned geographical origins. As the tomato is one of the major components of what is considered to be the healthy Mediterranean diet, it is important to be able to determine the geographical origin of tomatoes and tomato-based products such as tomato sauce. The aim of this work is to develop an analytical method to determine rare earth elements (RRE) for the control of the geographic origin of tomatoes. The content of REE in tomato plant samples collected from an agricultural area in Piacenza, Italy, was determined, using four different digestion procedures with and without HF. Microwave dissolution with HNO3 + H2O2 proved to be the most suitable digestion procedure. Inductively coupled plasma quadrupole mass spectrometry (ICPQMS) and inductively coupled plasma sector field plasma mass spectrometry (ICPSFMS) instruments, both coupled with a desolvation system, were used to determine the REE in tomato plants in two different laboratories. A matched calibration curve method was used for the quantification of the analytes. The detection limits (MDLs) of the method ranged from 0.03 ng g(-1) for Ho, Tm, and Lu to 2 ng g(-1) for La and Ce. The precision, in terms of relative standard deviation on six replicates, was good, with values ranging, on average, from 6.0% for LREE (light rare earth elements) to 16.5% for HREE (heavy rare earth elements). These detection limits allowed the determination of the very low concentrations of REE present in tomato berries. For the concentrations of REE in tomato plants, the following trend was observed: roots > leaves > stems > berries.

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Precise determination of strontium isotope ratios by TIMS to authenticate tomato geographical origin

Trincherini¹,

Baffi

Barbero³

et al. 2014

Food Chemistry

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Radionuclides in fruit systems: A review of experimental studies

Carini¹,

Green²,

Spalla³

2006

Science of The Total Environment

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Stefano Spalla

Characterization of mercury species in soils by HPLC–ICP-MS and measurement of fraction removed by diffusive gradient in thin films

Arsenic, Cadmium and Lead in Beers from the Italian Market

Determination of rare earth elements in tomato plants by inductively coupled plasma mass spectrometry techniques

Precise determination of strontium isotope ratios by TIMS to authenticate tomato geographical origin

Radionuclides in fruit systems: A review of experimental studies

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