Sh. Sugiura et al., Availability of phosphorus and trace elements in low-phytate varieties of barley and corn for rainbow trout (Oncorhynchus mykiss), AQUACULTURE, 170(3-4), 1999, pp. 285-296
Approximately two-thirds of phosphorus in various grains is present as phyt
ate, which is not well-utilized by fish and other monogastric species. Besi
des its low availability of phosphorus, phytate is reported to reduce the a
vailability of other dietary nutrients to animals. Single-gene, non-lethal
low phytic acid (Ipa) mutations in corn and barley cause the seed to store
most of the phosphorus as inorganic phosphorus instead of as phytate phosph
orus. Theoretically, using these mutant grains containing lower levels of p
hytate in animal feeds should reduce phosphorus excretion by the animals, p
rovided that available phosphorus levels in feeds containing these grains a
re appropriately adjusted downward. This study was conducted as a first ste
p to determine if the biological availability of phosphorus in the low-phyt
ate mutants of barley, dent corn and flint corn differed significantly from
that in ordinary grains for fish. Also of interest was the effect, if any,
on the availability of other minerals in formulated feeds containing the l
ow-phytate grains. Feeding trials demonstrated that the apparent availabili
ty of phosphorus in low-phytate grains was significantly higher than that i
n ordinary grains when they were combined with low-ash ingredients. Fecal p
hosphorus content (on average) decreased 50.2% (in phytate-phosphorus) or 4
2.9% (in total phosphorus) by replacing ordinary grains with low-phytate gr
ains in the low-ash diets. The apparent availabilities of calcium, iron, zi
nc and strontium also were significantly higher in the low-ash diet contain
ing low-phytate dent corn than that containing ordinary dent corn. However,
no such increase was observed with low-phytate barley or low-phytate flint
corn over their counterpart grains in either calcium, iron or zinc. The ap
parent availabilities of copper, manganese, magnesium, potassium and sodium
were not significantly different between ordinary and low-phytate grains.
The apparent digestibility of dry matter also was not significantly differe
nt between ordinary and low-phytate grains. The results of this study sugge
st that a substantial reduction of phosphorus discharge from fish, poultry
and animal farms could be achieved simply by replacing ordinary grains with
low-phytate mutant grains in low-ash feeds. (C) 1999 Elsevier Science B.V.
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