Stable isotope measurementFor analy

Stable isotope measurement
For analysis of stable isotope signatures Collembola
and fungi were dried at 60 1C for 2 days,
weighed into tin capsules, and stored in a desiccator
until measurement. Isotope ratios were deter-
mined by a coupled system of an elemental
analyser (NA 1500, Carlo Erba, Milan) and a mass
spectrometer (MAT 251, Finnigan, Bremen). The
system is computer-controlled, allowing on-line
measurement of
15
N and
13
C. Stable isotope
abundance is expressed using the d notation with
dX [%] ¼ (R
sample
R
standard
)/R
1000, with
‘‘ X’’ representing
15
Nor
13
standard
C, and R
and
R
standard
representing the
15
N/
14
Nor
13
sample
C/
C ratios
of the sample and standard, respectively. For
N,
atmospheric nitrogen served as the primary standard
and acetanilide (C
8
H
NO, Merck, Darmstadt)
for internal calibration. For
9
13
C, Peedee belemnite
marine limestone (PDB) was used as the standard
(Lajtha and Michener, 1994). The mean standard
deviation of samples of 10–200 mg N, the range of
the samples analysed, is 0.2% (Reineking et al.,
1993). Fractionation of stable isotopes between
food source (A) and consumer (B) is described in
terms of the difference in delta (d) values using the
D notation, where D ¼ d
: A positive D value
indicates a relatively greater concentration of the
heavier isotope in B.
B
2d
A
12
15st