Open AccessLogging Residue Volumes and Characteristics following Integrated Roundwood and Energy-Wood Whole-Tree Harvesting in Central Maine
Author(s) -
Julia I. Briedis,
Jeremy S. Wilson,
Jeffrey G. Benjamin,
Robert G. Wagner
Publication year - 2011
Publication title -
northern journal of applied forestry
Language(s) - English
Resource type - Journals
eISSN - 1938-3762
pISSN - 0742-6348
DOI - 10.1093/njaf/28.2.66
Subject(s) - logging , environmental science , snag , debris , coarse woody debris , forestry , woody plant , preharvest , sampling (signal processing) , volume (thermodynamics) , hydrology (agriculture) , geology , ecology , habitat , geography , biology , horticulture , postharvest , engineering , electrical engineering , geotechnical engineering , filter (signal processing) , oceanography , physics , quantum mechanics
wood across all sites was 726 57 ft 3 /ac (SE), 47% of which was residue generated by the harvest. The variability of residue volumes was higher within sites (coefficients of variation between 36 and 69%) than between sites (coefficient of variation, 27%). Coarse woody material between 3 and 6 in. in diameter at the large end dominated the postharvest debris, while logs greater than 10 in. in diameter were scarce. The majority of harvest-generated downed wood was in decay class 1, whereas preharvest debris consisted of mostly decay classes 2, 3, and 4. The volumes of downed wood remaining on the study sites were within the range of volumes found on other managed sites of similar forest types. However, further research is necessary to assess whether these amounts and characteristics are adequate for long-term maintenance of ecological processes.
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