1. Intr oductionReactive species th

1. Intr oduction
Reactive species that initiate reactions that damage
organic molecules of biological importance, are considered to be the cause of several health problems including
cancer, heart diseases and possibly, the process of aging
itself (Halliwell & Gutteridge, 1989). Also, lipid oxidation by radicals results in food deterioration, especially
in high fat foods ( Kanner et al., 1994). Synthetic antioxidants such as butylated hydroxyanisole (BHA) and
butylated hydroxytoluene (BHT) are used as antioxidants. However, demand for natural antioxidants has
been increased due to consumer concerns about the
safety of synthetic antioxidants (Hudson, 1990).
Antioxidants, either as additives or as pharmaceutical
supplements, can terminate radical reactions in vivowhi ch can damage life e ssential molecules such a s nuclei c acids and protein s (Saez et al., 1994). Phenolic compounds, particularly flavonoids, have been shown to
possess an important antioxidant activity towards these
radicals, which is principally based on their structural
characteristics (number and position of phenolic
hydroxyls, other groups, conjugation) (Bors, Hellers,
Michel, & Saran, 1990a, 1990b).
Citrus processing byproducts represent a rich source
of naturally occurring flavonoids (Horowitz, 1961).
The peel which represents roughly half of the fruit
mass, contains the highest concentrations of flavonoids
in the Citrus fruit (Manthley & Grohmann, 1996,
2001). Many authors have found antioxidants in juice
and edible parts of oranges of different origin and
from different varieties (Miller & Rice-Evans, 1997;
Rapisarda et al., 1999; Roberts & Gordon, 2002; Vinson, Su, Zubik, & Bose, 2001). As far as the peel is
concerned, extracts from this part of the fruit were
found to have a good total radical antioxidative potential (TRAP) (Gorinstein et al., 2001). Also, Larrauri,
Ruperez, Bravo, and Saura-Calixto (1996) compared
lime and orange peel fibre with a-tocopherol and
BHA.
According to Wang, Cao, and Prior (1996), the different results observed for the antioxidant potential of
juices are probably due to various factors, namely climate, soil, fruit variety and degree of maturation. So,
in the present work, an effort was made to evaluate
the radical scavenging activity of Greek navel sweet orange peel for the first time. Navel oranges have commercial importance and their byproducts should be
thoroughly studied for possible utilization. Two assays
were used to determine free and hydroxyl radical scavenging activity: (i) DPPH and (ii) luminol-enhanced
chemiluminescence respectively. The Folin–Ciocalteu
method was used to determine the total phenolic content
of each one of the extracts, fractions and residues. Extracts and residues examined were prepared using successive solvents of varying polarity and by partitioning
the methanol fraction with diethyl ether, ethyl acetate
and n-butanol.