Abstract
We evaluated even- and uneven-aged silvicultural options for slash pine (Pinus elliottii Engelm.) using empirical data and the Forest Vegetation Simulator (FVS) model. Data were collected from a mature unthinned slash pine plantation in a flatwoods site in Florida, and used to simulate six scenarios of even- and uneven-aged silvicultural regimes applied to slash pine stands, including a no-action option. These alternative silvicultural regimes were evaluated for multiple benefits including timber production, carbon storage and stand structural diversity over a period of 100 years. None of the silvicultural regimes maximized all the benefits. While even-aged management options were more efficient in total merchantable timber production (9.78 to 11.02 m3·ha−1·year−1) and overall carbon stocks (3.05 to 3.47 metric tons·ha−1·year−1), uneven-aged management options created overall more complex stand structure (Stand Structural Diversity (computed from Shannon’s Indices values) = 1.92) and maintained a steady flow of yields, particularly sawtimber (34.29 to 58.46 m3·ha−1 every 10 year) and aboveground carbon stocks (56.9 to 77.2 metric tons·ha−1). Optimal achievement of multiple benefits across the landscape, therefore, may require maintaining an assortment of management strategies. Both even- and uneven-aged management options have the potential to improve production and carbon storage of pine forests and are a substantial improvement over no action.
Highlights
Silvicultural options to manage forest stands broadly fall into one of two contrasting approaches, namely even-aged or uneven-aged management [1,2,3]
Since most of the pine forestlands in the southern United States currently exist under intensively managed plantations, we evaluated what the fate of a slash pine (Pinus elliottii Engelm.) plantation stand would be if (1) it continued to be managed as an even-aged plantation following the currently common management regimes; (2) if it were converted to and managed as an uneven-aged stand; or (3) if no action was taken
The pulpwood plantation regime (EAM-PP) resulted in the highest coefficient of variation (CV) of 100%, while uneven-aged and no-action scenarios had the lowest CVs of 17.9%
Summary
Silvicultural options to manage forest stands broadly fall into one of two contrasting approaches, namely even-aged or uneven-aged management [1,2,3]. Uneven-aged management, on the other hand, is implemented by maintaining multiple (three or more) age-classes through different kinds of selection cuttings, creating continuous tree cover in a stand at all times. Both even-aged and uneven-aged methods may employ different intensities and frequencies of harvests over time depending on rotation lengths or cutting cycles set in their management plans [1,2]. Both types of forest management have numerous economic, ecological, social, and cultural implications [4,5].
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