Management implications of long-term tree growth and mortality rates: A modeling study of big-leaf mahogany (Swietenia macrophylla) in the Brazilian Amazon
Authored by Christopher M Free, R Matthew Landis, James Grogan, Mark D Schulze, Marco Lentini, Oliver Duenisch
Date Published: 2014
DOI: 10.1016/j.foreco.2014.05.057
Sponsors:
Brazilian National Council for Scientific and Technological Development (CNPq)
Institute of Man and the Environment of the Amazon (IMAZON)
Platforms:
R
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
Knowledge of tree age-size relationships is essential towards evaluating
the sustainability of harvest regulations that include minimum diameter
cutting limits and fixed-length cutting cycles. Although many tropical
trees form annual growth rings and can be aged from discs or cores, destructive sampling is not always an option for valuable or threatened
species. We used an individual-based population model developed for
big-leaf mahogany (Swietenia macrophylla, Meliaceae) in southeast
Amazonia, Brazil to simulate stem age-size relationships and examine
forest management implications of mortality and diameter increment
growth. Growth trajectories of 10,000 simulated mahogany trees were
consistent with growth trajectories reconstructed from 32 mahogany discs
with annual rings. Trajectories were highly variable and strongly
autocorrelated; diameter was a poor predictor of tree age even when
accounting for up to 10 years of previous growth history.
Commercial-sized trees (60 cm diameter) ranged in age from 33 to 180
years (74 yr median). Only 12.5\% of seedlings survived to this size, but survival and time to reach commercial size depended strongly on
early growth history (first 10 years of life). A tree grown at the 75th
percentile growth rate throughout its lifetime requires 70 years to
attain commercial size, but Brazilian forest management regulations
imply a rotation length of 60 years. These results demonstrate that
individual-based models parameterized with typical census data can
incorporate individual variation and growth autocorrelation and
realistically simulate tree growth and mortality. In the absence of tree
ring data, such models can be used to evaluate the consequences of
long-term growth and mortality for sustainable management. In the case
of mahogany, our results suggest that non-detrimental harvests cannot be
achieved without lengthening cutting cycles, increasing commercial tree
retention rates, and regularly applying silvicultural treatments
designed to increase stem diameter growth rates. Forest managers can
have the greatest effect on the rate of commercial recruitment in the
first 10 years after a harvest by implementing treatments ensuring that
adequate numbers of new stems establish and recruit to dominant
positions in recovering canopy gaps. Regrettably, sustainable mahogany
management systems developed based on understanding of the species'
ecology will not be as simple as current harvest regulations in Brazil
imply. (C) 2014 Elsevier B.V. All rights reserved.
Tags
Rain-forest
Sustainable forest management
Seasonal tropical forest
Seedling survival
Southeast para
Ring analysis
Western thailand
Eastern amazon
Logging gaps
Costa-rica