A method for the determination of selenium traces in plant tissue samples i
s described. Freeze-dried and homogenized biological samples mere decompose
d with HNO3, HF and H2O2 by using closed-vessel microwave digestion under t
emperature and pressure control. NIST SRM 1577b Bovine Liver and NIST SRM 1
547 Peach Leaves reference materials were investigated to optimize the anal
ytical procedure. Selenium concentrations were measured with quadrupole-bas
ed inductively coupled plasma mass spectrometry (ICP-QMS) using external ca
libration and the isotope dilution method. A special solution introduction
device combining pneumatic nebulization with hydride generation in the thin
liquid film on the malls of the minicyclonic spray chamber was employed fo
r sample introduction into the ICP-MS, which allowed the sensitivity for Se
to be increased by up to one order of magnitude without increasing the mem
ory effects. SRMs were doped with different amounts (0, 0.1, 0.2, 0.5 and 1
.0 mug/g) of enriched Se-78 spike (98.58% of Se-78) before digestion to stu
dy the method performance and selenium losses during sample preparation. Fo
r a given matrix selenium losses were reproducible as follows: 9.9+/-1.6% f
or Bovine Liver SRM, 15.8+/-3.6% for Peach Leaves SRM and 20.0+/-4.5% for t
he real plant tissue samples. The detection limit for selenium calculated f
or solid plant tissue was 0.2 mug/g (3 sigma -criteria, m/z=82, digestion 1
:1000) using conventional pneumatic nebulization for solution introduction
and 0.03 mug/g for a combination of pneumatic nebulization with hydride gen
eration. Applying the method developed, a large number of plant tissue samp
les were analyzed to study selenium behavior and accumulation in the enviro
nment.