Browse on keywords: erosion manure
Search results on 12/16/18
1639. Dormaar, J.F., C.W. Lindwall, and G.C. Kozub. 1988. Effectiveness of manure and commercial fertilizer in restoring productivity of an artificially eroded dark brown chernozemic soil under dryland condit. Can. J. Soil Sci. 68:669-679.
2406. Hanley, Paul (ed.). 1980. Earthcare: Ecological agriculture in Saskatchewan.. Earthcare Information Centre.
A well-written text covering all aspects of biological farming in the prairie region of Saskatchewan. Practices apply to small and large farms. Includes reports from selected farms. References at the end of chapters.
6684. Stephens, D.E.. 1944. Effect of tillage and cropping practices on runoff, erosion, and crop yields in the wheat growing areas of Washington, Idaho, and Oregon.. USDA-SCS. Conservation practices on wheat lands of the Pacific Northwest..
An excellent summary of the dryland experiment station research in WA, ID and OR. Describes research on stubble mulching, tillage implements, crop rotations, fallow, etc. The use of sweetclover or alfalfa-grass were encouraged. T: yield, runoff, soil loss by tillage, rotation, fertilizer.
8867. Dormaar, J.F., C.W. Lindwall, and G.C. Kozub. 1988. Effectiveness of manure and comercial fertilizer in restoring productivity of an artificially eroded dark brown chernozem soil under dryland condition. Can. J. Soil Sci. 68:669-679.
An artificially eroded field was not significantly improved for grain production by 21 yr of cropping without nutrient application. A subsequent wheat-fallow system was used for 5 yr either with additions of 13 T/ac feedlot manure or commercial fertilizer (60 lb N/ac, 30 lb P/ac). Both treatments restored productivity within the first year, as measured by wheat yield. During drought years, manure plots consistently yielded more than fertilized plots. Manure significantly increased the organic matter, total N, available P, and water-stable aggregate status of the soil.
9952. Zahradnik, F.. 1983. He nets $60,000 a year without buying fertilizer.. The New Farm, March/Apr 1983, p.22-24..
Don Lambert of Cheney, Washington, has not had any synthetic fertilizers used on his 780-acre farm since his family began farming it three generations ago. Yet the farm consistently produces 65 to 70 bushels of winter and spring wheat per acre. His farm also has up to four times less rill erosion than neighboring fields. Lambert's independence from fertilizer and the reduced erosion are due the use of Austrian winter pea as a green manure every third year in his rotation. He plants this cover crop in April and lets it grow until late July or early August. If spring wheat is to follow, he plows just enough to leave a heavy surface residue to protect against winter erosion. A soil test following Austrian winter pea showed enough nitrogen for 84 bushels of wheat per acre. The cover crop builds organic matter content of the soil, helps control weeds, and researchers believe it somehow unlocks phosphorus from the soil, making it more available to following crops.