Loblolly pine response to wet-weather harvesting on wet flats after 5 years |
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Authors: | Mark H Eisenbies James A Burger W Michael Aust Steve C Patterson |
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Institution: | (1) Department of Forestry, VirginiaTech, 228 Cheatham Hall, Mail Code 0324, Blacksburg, VA, 24061, U.S.A;(2) MeadWestvaco Corp., P.O. Box 1950, Summerville, SC, 29484, U.S.A |
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Abstract: | The timing of forestry operations relative to weather conditions is a consideration in applying Forestry Best Management Practices (BMPs). Harvesting during different seasons can result in degrees of soil disturbance, the distribution of logging debris, and potentially future stand productivity. The purpose of this study is to examine the response of loblolly pine (Pinus taeda L.) stands after wet- and dry-weather harvesting combined with three site preparation treatments. A 20 × 20 meter grid was established in fifteen 20-year-old, 3.3-ha loblolly pine plantations in South Carolina. A census of soil physical disturbance and slash distribution was made after harvesting. Growth was measured on 1/125th-ha plots at ages two and five. Dry-weather harvested (DWH) sites were 91% undisturbed, and 9% compressed. Wet-weather harvested (WWH) sites were 41% undisturbed, and 59% disturbed. WWH sites averaged 9% bare soil, while DWH sites averaged 16% with 1 kg m-2 less logging residue; primarily in the form of heavy and light slash. At age five, the green-weight biomass of flat-planted DWH and WWH sites were 13.3 and 12.6 kg tree-1 respectively, and on the bedded DWH and WWH sites were 18.6 and 22.8 kg tree-1. Wet weather harvesting did not seem to adversely affect stand growth, and may have improved it. Due to a prolonged drought, bedding had a larger effect on WWH sites than DWH harvested sites. The effects of droughty conditions may be influencing treatment response on these highly productive sites; however, the long-term effects of harvesting on stand growth remain to be seen. |
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Keywords: | Best Management Practices harvesting disturbance Loblolly pine site preparation site productivity sustainability wetlands wet-weather harvesting |
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