Abstract

Hardwood-dominated forests in south-central Chile have shade-tolerant and mid-tolerant tree species capable of regenerating and growing well in partial shade. To test the potential for using an uneven-aged silviculture in these forests, we established single-tree selection treatments at two mid-elevation sites within the Evergreen forest type in the Coastal range (Llancahue and Los Riscos, 40–42° S Lat). They had an average initial basal area of 70–80 m2 ha−1. In each stand, we established four 2000 m2 plots with a residual basal area of ~40 m2 ha−1, and four with a residual basal area of ~60 m2 ha−1. We planned for a maximum residual diameter of 80 cm, but needed to leave 20%–25% of the residual basal area in larger trees due to their great abundance in these old-growth forests. We re-measured these plots 5–6 years after the cuttings. We used mixed-effects models to evaluate the periodic annual increment (pai) in diameter and the abundance of tree regeneration, and linear models to evaluate ingrowth and changes in the basal area and volume. At Llancahue, the diameter pai of individual trees was significantly greater in the treatment with lower residual densities, especially for mid-tolerant species in lower diameter classes (5–20 cm). At both sites, the pai in the stand basal area and volume was greater in the more heavily stocked treatment, but differences were significant only at Llancahue. Regeneration was dominated by shade-tolerant species at both sites but was more abundant and more diverse at Llancahue. Taller tree regeneration (50–<200 cm) significantly increased after the cuttings at both sites, while small regeneration (5–<50 cm) overall remained at pre-cut levels. This pattern was similar for mid- and shade-tolerant species. However, we found no differences in regeneration responses between the lower and higher levels of the residual basal area. Sapling densities did not differ at both sites for shade-tolerant species, but for mid-tolerant species these were more abundant at Los Riscos. While both sites had many similar trends after implementing selection cuts (a greater individual growth in the treatment with lower basal areas but a higher stand-level growth in the treatment with a high basal area, more abundant regeneration of shade-tolerant species, etc.), they illustrate a differential potential for implementing uneven-aged silviculture, especially due to site-species interactions. These results are a first step towards evaluating the prospects for selection cuttings in these experiments and elsewhere in Valdivian temperate rainforests.

Highlights

  • Foresters across the world have expressed interest in methods for uneven-aged and continuous cover forestry (CCF) [1,2,3]

  • These mid-elevation forests correspond to the Evergreen forest type, and to the subtype dominated by shade-tolerant species and having a few emergent Nothofagus trees [13]

  • The periodic annual increment in diameter was significantly higher for mid-tolerant species in the low residual basal area (LRBA) plots compared to the higher residual basal area (HRBA) plots at Llancahue for the lower diameter classes (80 cm) (Figure 2)

Read more

Summary

Introduction

Foresters across the world have expressed interest in methods for uneven-aged and continuous cover forestry (CCF) [1,2,3] These include a range of silvicultural treatments, which largely fall into selection systems and irregular shelterwood systems. The Evergreen forest type is most prevalent, covering nearly 4 million ha It is dominated by shade-tolerant or mid-tolerant evergreen hardwood species [10,11,12,13,14], mid-tolerant ones (e.g., Eucryphia cordifolia Cav., one of the species with the highest basal area in these forests) are scarce in the regeneration layer and among the smaller tree size classes in forests in advanced successional stages of development [13,15,16,17]. The dynamics of mature and old-growth forests are mostly driven by the gap regeneration

Objectives
Methods
Results
Discussion
Conclusion

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.