ENVIRONMENTAL IMPACT OF DIFFERENT LOGGING METHODS IN THE BANKHEAD NATIONAL FOREST, ALABAMA: A COMPARATIVE ANALYSIS. by THOMAS MBELI. TENYAH A THESIS Submitted in Partial fulfillment for the requirements for the degree of Master of Science in the Department of Natural Resources and Environmental Sciences in the School of Graduate Studies Alabama A&M University Normal, AL 35762 May 2009 Submitted by THOMAS MBELI TENYAH in partial fulfillment of the requirements for the degree of MASTER OF SCIENCE specializing in FORESTRY/GIS. Accepted on behalf of the Faculty of the Graduate School by the Thesis Committee: Major Advisor ________________________________________ Dean of the Graduate School _______________________________________ Date ii Copyright by THOMAS MBELI TENYAH 2009 iii This work is dedicated to my late father Jonas Tenyah Werengoh and to my family for supporting me through the program. iv ENVIRONMENTAL IMPACT OF DIFFERENT LOGGING METHODS IN THE BANKHEAD NATIONAL FOREST, ALABAMA: A COMPARATIVE ANALYSIS Thomas Mbeli Tenyah, M.S. Alabama A&M University, 2009. 103 pp. Thesis Advisor: Dr. Kozma Naka The main goal of our study was to evaluate the environmental impacts of two different harvesting methods on site characteristics. Two different methods, the cut-to- length and the tree-length logging systems were compared. The fundamental question was which of these two harvesting methods causes less soil disturbances, least residual tree damage, and was more productive and cost effective than the other. This question was answered by examining the following specific objectives: (1) compare the effects of the tree-length and cut-to-length harvesting methods on the soil surface and physical properties of the harvested areas, (2) compare the residual tree damage between these two harvesting systems, and (3) compare the productivity and cost-effectiveness of the two harvesting systems. To attain these objectives, the environmental impacts caused by these harvesting operations were measured and compared through statistical analysis. A visual inspection was conducted before and after harvesting. Pre-harvest data indicated about 98 percent of the treatment area was undisturbed while post-harvest analysis showed about 79 percent was disturbed. Statistical analysis using Generalized Linear Model (GLM) showed no significant difference in the soil disturbance between the two logging methods. However, there was significant variation in the plot to plot disturbance among the various soil disturbance classes disturbed with litter (DC2), disturbed with soil exposed (DC3), v disturbed with rock and stumps (DC5), and disturbed with slash (DC6). There was also subplot variation in the amount of undisturbed area (DC1), disturbed with litter (DC2), and disturbed with slash (DC6). Soil compaction analysis did not indicate any significant difference between the two harvesting methods, but there was a significant difference between the heavily and lightly impacted areas within the treatments and there was significant difference between the disturbed and undisturbed areas. Residual stand damage was determined, by counting the number of injured trees, and assigning a damage classification before and after harvesting. Statistical analysis results obtained indicated a significant difference between the two systems. The cut-to-length (CTL) harvesting system had a higher incident of residual tree damage than the tree-length (TL) harvesting system. There was a considerable difference in the productivity and costs analysis of the two harvesting methods with the CTL system costing less to own and operate than the TL system but the TL machines had a higher productivity rate per productive machine hour (PMH) than those of the CTL system. However, the TL harvesting method yielded a higher net gain to the operator than the CTL system. KEY WORD: harvesting methods, soil disturbance, residual stand damage, machine productivity and cost. vi TABLE OF CONTENTS CERTIFICATE OF APPROVAL ............................................................................ ii DEDICATION .......................................................................................................iv ACKNOWLEDGEMENT .......................................................................................xi CHAPTER I 1.1 Statement of the problem .................................................................................. 3 1.2 Significance of Study ........................................................................................ 5 1.3 Purpose and Objectives ..................................................................................... 6 CHAPETER II 2.1 Environmental Impacts of Logging Operations ................................................ 8 2.2 Soil Impacts ...................................................................................................... 9 2.3 Residual Stand Damage .................................................................................. 13 2.4 Productivity and Cost ...................................................................................... 15 CHAPTER III MATERIAL AND METHODS .............................................................................. 21 3.1 Study Site ........................................................................................................ 21 3.2 Background and Management History of the Research Site .......................... 24 3.3 Experimental Design ....................................................................................... 25 3.4. Soil Impact ..................................................................................................... 28 vii 3.4.1 Visual Estimation: ........................................................................................ 29 3.4.2 Soil Compaction: ......................................................................................... 30 3.4.3 Soil Disturbance ........................................................................................... 32 3.4.4 Soil Compaction........................................................................................... 42 CHAPTER IV RESIDUAL STAND DAMAGE ............................................................................ 47 4.1 Data collection ................................................................................................ 47 4.2 Statistical Analysis .......................................................................................... 48 RESULTS ........................................................................................................... 49 CHAPTER V PRODUCTIVITY AND COSTS ........................................................................... 58 4.1 Data Collection ............................................................................................... 59 4.3 Data Calculations and Analysis ...................................................................... 63 CHAPTER VI SUMMARY AND CONCLUSIONS ..................................................................... 74 RECOMMENDATIONS ...................................................................................... 78 APPENDICES .................................................................................................... 80 BIBLIOGRAPHY ................................................................................................. 94 VITA viii LIST OF TABLES Table Page 1: Experimental plot area sizes .................................................................................... 28 2: Soil Disturbance classes ........................................................................................... 30 3: Percentage of area with surface soil disturbance ..................................................... 36 4: Percentage of mean soil disturbance for each logging method ................................ 37 5: ANOVA for Surface soil disturbance classes .......................................................... 38 6: Percent variance accounted for by sources of variance ........................................... 41 7: Percentage Means by Orientation per each soil disturbance classes ....................... 42 8: Average soil compaction measured in pounds per square inch (psi) ....................... 44 9: ANOVA for Soil Compaction ................................................................................. 45 10: Number of trees damage in each class per plot and total number of trees ............... 50 11: Residual tree damage of each harvesting method per 100 acres ............................. 52 12: Number of residual tree damaged per treatment plot (Per 100 acres) ..................... 53 13: Contingency table for residual tree damage ............................................................. 56 14: Machine Productivity ............................................................................................... 60 15: Total Machine Utilization ........................................................................................ 61 16: Machine rate calculations for TL harvesting system ............................................... 67 17: Operator performance .............................................................................................. 73 ix LIST OF FIGURES Figure Pages 1: Location of Bankhead National Forest .................................................................... 23 2: Distribution of study plots in Bankhead National Forest. ........................................ 26 3: Distribution of residual tree damage in to the various classes ................................. 54 4: Use ArcGIS to determine the number of points on a treatment area . ..................... 80 5: Selecting Six Sampling plots of 9 points each (total = 54) ...................................... 81 6: Using DME to measure soil disturbance 10m in each direction .............................. 82 7: Movement of the Harvester and Forwarder inside Somerville treatment. ............... 83 8: Skidder……………………………………………………………………………..85 9: Skidder……………………………………………………………………………..79 10: Feller Buncher……………………………………………………………….. ........ 85 11: Forwarder…………………………………………………………………………..79 12: Shows pictures of landing areas in the TL system one year after harvesting has been completed. ................................................................................................................ 92 13: Shows pictures of center of main activity in the CTL system one year after harvesting has been completed…………………………………………………….93 x
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