The composition of animal feeds inc

The composition of animal feeds includes added mineral and
vitamins, which are essential for the functioning of living beings,
although the amounts supplied to animals must be present in the
correct proportions since deficiencies in these essential components
lead to diseases such as anaemia, delays in growth, etc.,
while their massive consumption produces intoxication and the
accumulation of such compounds in the organism. It is therefore
crucial to control the safety levels of their concentrations
and tolerance to them.
Minerals in agricultural products probably exist in both inorganic
and organic complexes. The concentration of inorganic
components in forage crops varies according to crop maturity,
plant parts, temperature, amount of fertilisers applied to the
crop, soil fertility and soil physical characteristics [1]. Reference
methods for mineral analysis include inductively coupled argon
plasma (ICP), atomic absorption spectroscopy (AAS) and X-ray
∗ Corresponding author. Tel.: +34 23 29448; fax: +34 23 29448.
E-mail address: inmaglez@usal.es (I. Gonz´alez-Mart´ın).
fluorescence spectroscopy (XRF) [2]. Because NIRS measures
absorption by molecular bonds, its use for pure minerals may
seems to have no sense. However, prediction of some minerals
in forages by NIRS may be possible through their association
with the organic matrix [3,4]. Only a few reports were found
related to the use of NIRS for macro and trace minerals in both
grasses and hay samples [5–7], in natural grasses [8] and in
botanical fractions of semi-arid grasslands [9] or legumes [10].
In our search of the literature, we failed to find references to
the determination of mineral substances in feed by NIRS with
a fibre-optic probe. Thus, the aim of the present work was to
explore the potential and accuracy of NIRS for predictions of
Fe, Mn, Ca, Na, K, P, Zn and Cu in animal feeds without prior
sample treatment, using direct application of the probe on the
feed