Mr 0 tffin CIRCULAR 50 JUNE, 1926 LAND CLEARING IN ALABAMA BOTTOM LANDS By Rufus Godwin Assistant in Agricultural Engineering AGRICULTURAL EXPERIMENT STATION OF THE ALABAMA POLYTECHNIC INSTITUTE M. J. FUNCHESS, Director AUBURN Cooperative work with the Bureau of Public Roads, Unit( States Department of Agriculture. LAND CLEARING IN ALABAMA BOTTOM LANDS By Rufus Godwin There are 5,000,000 acres of reclaimable bottom land in Alabama. Undrained this land has little or no value for crop production. Although it is some of the best land in the State, its purchase price is so low that the total cost is nearly repres- ented by the cost of reclamation. To determine what should be done with it a study was made of its condition, and some experimental work done in land clearing. The clearing consisted of removing standing timber and brush, and then the removal of stumps by pulling and blasting, both while they were green and after they had undergone a period of decay. This circular is a record of this study and experimental work and an explanation as to how it was done. PROCEDURE Plots were selected in the Fayette-Lamar Drainage District and in the bottom lands of Clay County. Two and one quarter acres on the outer edge of the bottoms drained by the Fayette-Lamar Canal were cleared at Millport in Lamar County; one and one half acres at Winfield, in Marion County; one acre at Covin, in Fayette County; and two acres at Bluff Springs, in Clay County. The soil of these acres is Ochlochnee sandy loam depos- ited by the streams near the canal. There is no sub-soil within several feet of the surface. Soil conditions of the plots studied are typical of those throughout the drainage districts of the State. Blasting was done by placing powder under the stump; and, in case of tap-rooted stumps, beside the tap root with a soil auger or driving bar and sledge. Large stumps (15 inches and over) were blasted by loading in a spring hole made by shooting, 1/3 stick of dynamite at the desired depth under the stump. The fuse and cap methed of firing was used. The cooperating agencies were: The Hercules Powder Com- pany, the DuPont Powder Company, the land owners of the land where the work was done, and the Tom Houston Manu- facturing Company, Columbus, Georgia. The number and condition of the stumps are shown in Table 1 which follows: Zable I.-eArea, Location, 9(umber, and Condition of Stumps. Plot Location No. 1 Lamar Co. Millport No. 2 Lamar Co. Millport No. 3 Fayette Co. Winfield No. 4 Fayette Co. Winfield No. 5 Fayette Co. Winfield No. 6 Fayette Co. Winfield No. 7 Clay Co. Bluff Spr'gs No. 8 Clay Co. Bluff Spr'gs Acres Pine Gum 1 1-8 50 16 Oak Bay Misc. Total Condition 14 7 16 103 Green 1 1-2 14 42 5 3 40 76 Green 1-2 1-2 1-2 6 10 17 33 Green 10 8 3 4 25 Green 9 7 3 6 25 Green 1 25 16 21 2 64 Decay- ed 1 yr. 1-2 8 12 6 18 45 Green 1 1-2 14 60 23 45 142 Green Plots 1, 2, and 7 had similar soil conditions, had the timber removed the same year as the blasting, and were fired with three different but comparable kinds of explosives. Test shots gave the load requirements. All were shot with approximately the same degree of efficiency by the same blasting crew. Table II is a record of the relation of the diameter of stump to cost of removal. C6able II.- Relation of 'Diameter of Stump to Cost of 'Removal. Average Lbs. of Actual Cost per Diameter Explosive cost per Stump Plot Explosive of Stumps Loaded Stump (powder at $22 per 100 lbs. 1 Hercules Special 11.7 .62 .25 .25 2 Sodatol* 14.9 1.25 .27 .41 7 Durox 17.3 3.50 .85 .85 From the above data, it is seen that when the cost of explosive is the same per pound the final cost per stump is not in proportion to the diameter. For each increase of three inches in diameter the cost per stump is nearly doubled. EFFECT OF SOIL CONDITIONS ON BLASTING EFFICIENCY The period from December to March is preferable for land- clearing because farm labor is not busy with other work during this period. From a technical standpoint this is true also be- *Sodatol is a war salvaged explosive, equal in strength to 40-per cent dynamite. Durox and Hercules Special are equal to 30 per cent dynamite and similar in speed and power. This in all probability accounts for the relatively lower cost of 14.9-inch stumps. cause most bottom lands have a high free-water content at this time. There is no subsoil in these bottoms sufficiently close to the surface for a foundation for the blast, due to the alluvial nature of the soil. The soil is loose, friable, and soft; and, with a low free water content, the blast is forced into the earth by the heavy-rooted hardwood stump above. An extra large charge will heave the soil through the roots and leave the stump intact, indicating that the force of the blast compressed the soil upon the bottom and sides of the shot hole. The result is that the line of least resistance is then upward. The loose, friable soil, instead of holding together and acting as a shoulder for the blast to life against the stump, will sift between the roots, the result being a stump left in place with a large hole under it. With a high free-water content in the soil, the blast meets positive resistance upon the bottom and sides of the shot hole, due to the free water rendering it less compressible. The line of expansion of the blast is upward after a relatively small downward and outward expansion. Instead of soil working through the roots, as it does with drier soils, it will hold to- gether, due to its adhesive and cohesive qualities, and act as a shoulder for the force of the blast to life against. The results at Winfield where the plots were well drained and at Millport where they were poorly drained will serve to show the tremendous effect of free water upon blasting efficiency. Table III, which follows, shows the relation of moisture to blasting efficiency. Tcable III.-T~elation of e 7 Coisture to blasting Efficiency * Explosive Diameter Poorly Well of Stump Drained Drained 40% Ammonia 16.0 56. % 60% Ammonia 12.4 56. % 20% Ammonia 17.5 30.3% 30% (Dumorite) 16.5 64. % 30% (Hercules Special 11.7 93% 40% (Sodatol) 14.9 94.2% 30% (Hercules Special) 12.8 100% THE LABOR AND MATERIAL COST The final cost of pulling and blasting is determined by the labor cost and the material cost. The following is a summary of the cost of a pulling operation and blasting operation to show what percentage of the final cost in each case is labor and material: *Efficiency is percentage of stumps completely removed after optimum charge had been determined by trial shots. Operation Labor Material Pulling 10.9 inch stumps 68% 32% Blasting 11.7 inch stumps 39% 61% The above is a comparison in which all labor is figured at the same rate. This does not include depreciation or interest charge of the stump puller. The materials used in pulling include gasoline and oil for a power stump puller and dynamite for loosening large stumps and breaking them up after they were pulled. KIND OF EXPLOSIVE TO USE In dry land, as previously shown, none of the explosives were highly efficient. Twenty-per cent ammonia dynamite, with a speed of 9600 feet per second was found too slow. It blew the dirt from under the stump, leaving the stump practi- cally in place and difficult to remove. Sixty-per cent dynamite with a speed of 16,000 feet per second was found more satis- factory than the 20-per cent. However, sixty-per cent dynamite was too fast. It shattered the stump without removing it. The most satisfactory explosive tried was the 30-per cent and the 40-per cent dynamites, including sodatol. These had a speed of 12,000 to 14,000 feet per second. Any of the explosives named proved satisfactory in wet soils. There is little or no difference in the performance of the high counts (explosives having approximately three sticks to the pound) of 30-per cent dynamite and 40-per cent dyna- mite; but, high-count explosives are cheaper, and they should be used for this reason. They are sufficiently strong to blast out green stumps and fast enough to be used in mud capping, which is breaking up stumps that have been removed with a stump puller. RELATION OF STUMP DIAMETER AND SIZE OF CHARGE The graphs on page 6 show two curves, one of which was plotted from the records of loads used in shooting 463 stumps in experimental work and the other by using E. D. Strait's rule: "Roughly, the load in pounds required to shoot a stump clear of the ground is the same as the square of the diameter of the stump in feet at the cut-off." (U. S. Dept. of Agr. Farmers' Bulletin No. 974). It is noted that the L = D 2 curve is less by an average of 0.4 pounds than the actual curve, except in the case of 36-inch stumps. Here the L equals D 2 curve is greater by one pound than the actual load cruve. J. R. Mattern says: "In clearing land of stumps, the rule L equals D 2 overestimates the load for stumps 36 inches and above." (Proceedings of the Institute of Makers of Explosives). Although neither of these authorities mentions type of soil, grade of dynamite, or type of stump, there is a close relation 6 between their statements and the result as indicated on the graphs. Using 0.1 pound of dynamite as a factor of safety and adding the average difference between the two curves, the following LOADING CHART -,-41 Explosive in pounds Actual load curve Curve based on L = D 2 ------- 7 rule is formulated: L equals D 2 plus 0.5 L equals load in pounds of high-count dynamite (Durox, Hercules Special, and Dumorite) and D equals the diameter of the stump in feet 14 inches from the ground. This rule holds for green hardwood stumps in bottom land that has a relatively high free-water content. It will serve as a guide for blasting under a wide range of conditions. Table IV, which follows, is a summary of the experiments reported in this circular. Toable I Summary Condition of Soil Wet Wet Wet Wet Wet Dry Dry Dry Stumps Inches per Diam- Acre eter Time 1st. yr. 1st. yr. 2nd yr. 1st. yr.j 1st. yr. 1st. yr.j 1st. yr.j 1st. yr.jf Means Herc. Special. Sodatol Here. Special 20 %~ Ammonia Dumorite 40 %o Ammonia D urox Tractor Puller Mater- Labor Brush- ial ing 16.62 12.19 21.60 27.28 20.80 22.50 69.16~ 10.03 9.30 8.25 10.20 16.40 14.60 16.40 7.30 21.21 *Carried only to the burning stage. 17.701 17.70 16.00 12.80 12.80 12.80 13.10 -. ^ (l r Total Cost per Stump 53.62 38.17 47.80 56.48 48.20 49.70 90.361 19.87 01.11 Quality of Work .251 Good .271 Fair .491 Perfect .631 Failure .671 Fair .741 Fair 16.61 .851 Perfect .331 Perfect 103 76 64 66 50 50 90* 94* 11.7 14.9 12.8 17.5 16.5 16.0 1 7 .3 . r -4 -i 1