Pasture-based grazing systems contribute to the excessive nutrients found i
n some streams in southern Australia. This study investigated P exported fr
om a 3.6 ha dairy pasture receiving high levels of P Fertilizer with a view
to identifying factors affecting P export. The runoff from 34 storms was m
onitored to examine factors thought to be associated with the variation in
total phosphorus (TP), The relationships between TP and days since grazing
(DG), days since fertilizing (DF), total storm flow (TF), and season (year
and time of year) were examined. The variable DF was inversely related to t
he flow-weighted mean TP concentration (P < 0.001) and accounted for 50.6%
(adjusted R-2) Of the variance in In (TP), However, DG was only weakly corr
elated to TP, suggesting that cattle did not mobilize large stores of avail
able P relative to the fertilization at the study site, The initial half-li
fe of fertilizer effect (i,e, the period of time since fertilizing in which
the TP concentration decreased by half) was estimated to be 4.3 d, with a
95% confidence interval of 3.1 to 8.0 d, However, unlike exponential decay
where the half-life is constant, the decay rate for these data declined ove
r time. The data adjusted For the effects of DG and TF show little evidence
of decline in TP after 20 d since fertilizing. Management of fertilizer ap
plication in relation to the timing of runoff events appears the main metho
d by which P export can be decreased in the type of pasture-based grazing s
ystem studied here.