WSU Tree Fruit Research & Extension Center

Organic & Integrated Tree Fruit Production

Saturday, January 19, 2019


Browse on keywords: erosion ID residue management

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Search results on 01/19/19

4160. McCalla, T.M.. 1948. The decomposition of Carex filifolia.. Soil Sci. Soc. Am. Proc., 13:284-286.

302. Allmaras, R.R., S.C. Gupta, J.L. Pikul and C.E. Johnson. 1979. Tillage and plant residue management for water erosion control on agricultural land in eastern OR.. Effects of tillage and crop residue removal on erosion, runoff, a.
Tillage and plant resiude management for water erosion control on agricultural land in eastern OR.

1239. Carter, L.S. and G.R. McDole. 1942. Stubble mulch farming for soil defense.. USDA Farmers' Bulletin 1917.
Discusses the value of stubble mulch tillage for the various parts of the U.S. Shows a number of implements to achieve good residue cover, including noble blades, a rotary subsoiler that leaves surface pockets, modified moldboard plows.

1755. Duley, F.L. and J.C. Russel. 1942. Using crop residues for soil defense.. USDA Misc. Publ. 494.
Describes various tools for subsurface tillage, leaving residue on the surface.

5919. Rogers, P. and R.D. Roe. 1986. Effects on soil erosion and wildlife habitat potential of changing to higher residue crops in the intermediate precipitation zone, Whitman Co., WA.. unpublished paper.
Effects on soil erosion and wildlife habitat potential of changing to higher residue crops in the intermediate precipitation zone of Whitman County, WA. Soil erosion in the intermediate precipitation zone has been identified as more severe than zones with more or less precipitation. An example 960 ac farm in the intermediate precipitation zone is used to predict the effect of increased crop residue on soil erosion and wildlife habitat. Increased crop residue use by continuous cropping in this zone in Whitman Co. will reduce ave. annual sheet and rill erosion on an example 960 ac farm from 12 T/ac to 5 T/ac by changing from wheat-barley-fallow rotation to one of 4 years each of grain and grass. The wildlife habitat potential would increase to 62.5% of optimum potential from a previous low of 12.5%. The result is reduced soil erosion and improved habitat for wildlife. T: predicted sheet and rill erosion; comparison of present wheat-barley-fallow rotation with a rotation of 4 yr spring grain and 4 yr grass.

6056. Saxton, K.E., D.K. McCool and R.I. Papendick. 1981. Slot mulch for runoff and erosion control.. J. Soil Water Conservation, (1):44-47.
A description of slot mulch technology which significantly reduced erosion and water runoff, and increased water infiltration. T: Observed tillage and residue effects on runoff from research plots.

7693. Yan, Ying. 1989. A model for predicting soil loss ratio and crop production in eastern Washington. M.S. Thesis, Dept. of Agronomy and Soils, WSU, Pullman, WA.
The model (SHUI) predicts soil erosion and crop production under different crop rotation, tillage operation, and crop residue management conditions. It simulates the soil-water budget, crop and root growth, top dry matter production, grain yield, and residue production and loss, and predicts the soil loss ratio. Validation data are included.

10040. Wohld, M.. 1991 Mar.. Good farming practices reduced erosion this winter.. Washington Farmer-Stockman, p. 22-23..
Erosion would have been worse after the winter of 1990-91 if it had not been for good erosion control measures such as strip cropping, divided slopes and straw residue management. Strip cropping and divided slopes alone can reduce erosion by about 50%. Leaving as little as 200 pounds of straw residue on the surface per acre can have some positive impact on erosion, according to WSU research. Strip cropping is also important for moisture conservation.

11214. Unger, P.W., W.R. Jordan, T.V. Sneed, and R.W. Jensen. 1988. Challenges in Dryland Agriculture: A Global Perspective.. Proc. Intl. Conf. on Dryland Farming, Bushland, TX, Aug. 15-19, 1988..
The proceedings consists of more than 280 scientific papers on dryland farming. Subject areas include sustainability, soil erosion, water conservation, agroclimatology, soil fertility, residue management, socioeconomic issues, environmental issues, cropping systems, and crop/livestock systems.

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