Natural advance regeneration of native tree species in pinus radiata plantations of South-Central Chile suggests potential for a passive restoration approach
Abstract
Restoration of natural forests previously replaced
by plantations is a widespread challenge for forestry
in Chile and elsewhere. However, there is little
documented evidence for successful restoration,
either through active or passive approaches. In this
study, we aimed at (1) determining the potential
for passive restoration in first-rotation Pinus radiata
plantations through natural regeneration of native
tree species and (2) identifying drivers of this advance
regeneration. Across different regions in
south-central Chile, we established nearly 260 plots
to assess regeneration and environmental conditions
along 26 transects running from plantations
into adjacent natural forests. The regeneration was
exclusively composed by native species, except for
7 individuals of P. radiata. Mean density and
diversity of seedlings were significantly higher in natural forests than in plantations, but this was not
the case for sapling density, and no differences in
sapling diversity were supported. Additionally,
significant differences in regeneration composition
between plantations and natural forests were found
only at two of the eight study sites. Compared to
climatic and soil chemical variables, which varied
mostly at regional scales, local environmental
conditions showed little influence on regeneration,
possibly due to the structural homogeneity of
plantations. Yet, the significantly higher basal area,
litter thickness and gap fraction of plantations
compared to natural forests suggest that these factors
may explain differences at the seedling stage.
Our study indicates that the use of appropriate
harvesting methods that maintain advance regeneration
may facilitate the transition from plantations
to native forests through passive restoration.
The use this approach should be further investigated
through analyzing regeneration’s response to
different forms of plantation harvesting.
Materias
Advance regenerationConversion
Environmental factors
Mixed Nothofagus forest
Monoculture
Native forest
Silviculture
South America
Succession
Understory
Origen
Ecosystems Early Access Sep 202110.1007/s10021-021-00704-x
https://repositorio.uchile.cl/handle/2250/186661
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