Vegetation structure and composition and the mass of components of organic
detritus were assessed in paired areas, with and without stock access, at s
ix sites. The study revealed that grazing has altered and continues to alte
r the structure and function of the riparian landscape in the Murrumbidgee
River and its tributaries in southeastern Australia. Seedlings and saplings
of the dominant Eucalyptus tree species were up to three orders of magnitu
de more abundant in areas with no stock access, and the biomass of groundco
ver plants was an order of magnitude greater in areas with no stock access
at all sites. Plant species richness did not differ between areas with and
without stock access when the ameliorating effect of canopy tree density wa
s taken into account, but plant community composition differed significantl
y between areas at all sites. Coarse particulate organic matter and terrest
rial fine woody debris were consistently more abundant in areas without sto
ck. In-stream fine and coarse woody debris was more abundant in areas witho
ut stock at mainstream sites, but not in tributaries. The percentage of bar
e soil was greater in areas with stock access at all sites. Differences bet
ween areas with and without stock access were generally most pronounced at
sites where the riparian zone had been excluded from stock access for more
than 50 years. The effects of livestock on vegetation and components of det
ritus have a significant influence on the function of riparian zones. Effor
ts to restore river health that focus solely on reducing the impact of regu
lated flows may be nullified if livestock grazing is not considered as part
of river ecosystem management. Copyright (C) 2000 John Wiley & Sons, Ltd.