Kp. Timoney et al., VEGETATION DEVELOPMENT OF BOREAL RIPARIAN PLANT-COMMUNITIES AFTER FLOODING, FIRE, AND LOGGING, PEACE RIVER, CANADA, Forest ecology and management, 93(1-2), 1997, pp. 101-120
In this study we compare and contrast vegetation development following
natural and logging disturbances in a major boreal river valley. Perm
anent sample plots and releves were established and sampled for vegeta
tion and landscape attributes in June and July of 1993 and 1994 in the
Peace River Lowlands, Wood Buffalo National Park, Canada. In the Peac
e River Lowlands, primary succession is a flood-origin process, Second
ary succession may be either autogenic through gap dynamics mediated b
y nursery logs, buried wood, and suckering, or allogenic, following fi
re or logging. Flood origin accounts for 72% and fire origin for 29% o
f the undisturbed forests. From 1951-1995, 24% of the forest land burn
ed, yielding a fire return interval of 186 years. Forest successional
trajectories are set soon after flood, logging, or fire, with little e
vidence of gradual replacement of one forest type by another. Vegetati
on composition and relative species abundance are strongly correlated
with living moss depth, moss-lichen total cover, total tree cover, her
b cover, and canopy height. Species with high indicator value are Hylo
comium splendens, Picea glauca, Pyrola chlorantha, Equisetum pratense,
and Epilobium angustifolium. Strong correlations exist between white
spruce tree density and canopy height, total tree cover and canopy hei
ght, total tree cover and basal area per hectare, basal area and canop
y height, and between canopy height and surface age. Clearcuts are ini
tially dominated by rose-raspberry followed by balsam poplar (with les
ser amounts of Alaska birch and aspen). After logging, temporal change
s in composition and dominance occur more rapidly than during natural
succession. There is no evidence of post-logging convergence toward th
e original white spruce and mixedwood forests; a long-term deciduous d
isclimax is predicted. Vegetation associations, successional pathways,
landscape relationships, and ecological benchmarks are identified.