Phytic acid is abundant in the fruits and seeds of many plants and is found
in foliage to a lesser extent. Among its several properties, phytic acid i
s a potent chelator of essential minerals and proteins thus, the possibilit
y exists that heme-based enzymes such as cytochrome P450 monooxygenases in
herbivores are detrimentally affected by phytic acid via chelation of dieta
ry iron. Mortality. growth performance, and P450-mediated metabolism of xan
thotoxin, a plant allelochemical, were examined in the presence of phytic a
cid in three lepidopteran species: a polyphagous seed-feeding species (Heli
othis virescens), a polyphagous foliage-feeding species (Trichoplusia ni),
and a species oligophagous on immature reproductive structures of two gener
a of Apiaceae (Depressaria pastinacella). While first instar H. virescens e
xperienced no increase in mortality after 120 hours on a diet containing 1%
phytic acid compared to a control diet, both T. ni and D. pastinacella exp
erienced virtually complete mortality over the same time period. Ultimate i
nstars of all three species experienced reductions in relative growth rates
(RGR) and relative consumption rates (RCR) in the presence of phytic acid.
although the only species to experience reduced digestive efficiency (ECI)
was H. virescens. Cytochrome P450-mediated metabolism of xanthotoxin was r
educed 60% in the presence of phytic acid in D, pastinacella, although meta
bolism remained unaffected in the two noctuids. These studies suggest a def
ensive function of phytic acid in addition to its primary functions of phos
phorus storage. energy storage, and cell wall precursor source.