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Friday, July 20, 2018

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1475. Crea, M.. 1978. Idaho agricultural commodity statistics. Historical series 1900-1976.. ID Agr. Expt. Sta. Misc. Series #43.

2052. Fox, C.P.. 1897. Idaho agriculture. ID Agr. Expt. Sta. Bull. #10.
Latah County, an important grain producer; also had apples, pears, prunes, berries. Potlatch district grew pears, nectarines, grapes. P shortages recognized on sandy river plain soils - recommended bonemeal or manure; distance to markets encouraged specialized farming.

2258. Greb, B.W.. 1979. Technology and wheat yields in the central Great Plains: Commercial advances.. J. Soil and Water Conservation, 34:269-273.
Increased yields due to: a)better summer fallow practices; b)better weed control; c)better wheat varieties. T: Cycles of wheat yields trends. Progress of yields and water use efficiency. Yields in 8 climates/3 decades. Planted wheat acres abandoned in 8 climates.

4827. Nelson, E.. 1908. Dry farming in Idaho. ID Agr. Expt. Sta. Bull. #62.
Caldwell, ID - better sites yield 30-40 bu/ac wheat, even 60; alfalfa - several cuttings; drier sites yield 20-30 bu/ac; in Utah, 1" of rain stored in soil produces 2.5 bu wheat; summerfallow necessary; eastern WA - late spring plowing with early disking and harrowing is effective weed control; "slicker" - homemade tool in Columbia Basin to kill weeds; Subsurface packer - after plowing, increased yields in Columbia Basin 25%. Idaho soils - short on N and humus; alternate crop possibilities: milo, sorghum, field peas, alfalfa, grass; also spring emer (speltz), hulled wheat (adapted to arid conditions); WW vs. SW has 4-5 bu/ac yield advantage.

5181. Peterson, P.P.. 1919. Soil and climatic factors in relation to crop production on the Palouse.. ID Agr. Expt. Sta. Bull. #118.
8 rotations with N, P, K trts; clear response to N - 3 bu/ac on wheat at 200 #/ac NaNo3; manure response = 6 bu/ac; wheat yielded same after potatoes and fallow than peas or corn; made the most money with wheat/oats/peas ($51/ac/yr); ave. oat yield 1916 = 70+ bu/ac, 1918 = 26 bu/ac. Wheat, oats more affected by drought than corn or potatoes; this is the first mention of statistical methods. T: fertilizer response, rotation X net return.

7424. Walker, D.J. and D.L. Young. 1982. Technical progress in yields - no substitute for soil conservation.. ID Agr. Expt. Sta. CIS #671.
Technological progress increased yield damage from erosion; higher yield reduction with successive erosion; yield damage from conventional tillage in wheat-pea rotation estimated at $8 for one year; no assurance that technology will continue to offset erosion - induced yield losses; leveling off yields in the last several years. T: erosion and yield change; technology and yield.

7722. Young, D., A. Chaudhry, and F. Xu. 1987. Price, yield, gross returns, and harvested acres time series for crops in Washington state, Whitman County, and the Columbia Basin.. Agr. Economics Staff Paper AE 87-1.
This is the most recent compilation of crop price and yield data. Most tables report data back to the early 1950's.

9913. Sargent, R.L.. 1987. Wheat Outlook, 1987.. Paper presented at Ag. Outlook Conference, Pasco, WA, Feb. 27, 1987..
This paper was presented at the Agricultural Outlook Conference in Pasco, WA. It discusses the increasing world wide wheat yields and the decreasing trend of world utilization, resulting in continuously rising carryovers. Mr. Sargent projects continued rising yields and is doubtful that any significant action will occur to solve the surplus problem. He feels greater attention should be given to the demand side.

10070. Mahler, R.. undated. Catena management in northern Idaho.. unpublished handout for Extension agent training.
In northern Idaho, water is often not limiting to crop production. Also, nutrient use efficiency is lower than in drier areas. Where annual precipitation is <17", fall application of all N fertilizer is best. But as rainfall increases, nutrient use efficiency can be increased by applying a greater share of N in the spring. Fertility experiments have shown that growers are probably underfertilizing bottomland positions and overfertilizing slopes for maximum net return from fertilizer. Several questions need to be answered to help improve nutrient efficiency. Is the value 2.7 lb N/bu wheat linear? Research results indicate that only 2.4 lb N/bu is needed at 80-90% of maximum yield. Is residual N used as efficienctly by plants from surface layers versus subsurface layers? What is the best approach to estimating N mineralization rates in a soil? Rates in northern Idaho can vary as much as 100% depending on weather conditions.

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