Fall Deep Tillage of Clay

Fall Deep Tillage of Clay PDF Author: Charles Edward Snipes
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ISBN:
Category : Agriculture
Languages : en
Pages : 24

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Fall Deep Tillage of Clay

Fall Deep Tillage of Clay PDF Author: Richard A. Wesley
Publisher:
ISBN:
Category : Clay soils
Languages : en
Pages : 8

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Fall Deep Tillage of Clay

Fall Deep Tillage of Clay PDF Author: Charles Edward Snipes
Publisher:
ISBN:
Category : Agriculture
Languages : en
Pages : 56

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Book Description

Fall Deep Tillage of Clay

Fall Deep Tillage of Clay PDF Author: Charles Edward Snipes
Publisher:
ISBN:
Category : Agriculture
Languages : en
Pages : 30

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Fall Deep Tillage of Tunica and Sharkey Clay

Fall Deep Tillage of Tunica and Sharkey Clay PDF Author: Richard A. Wesley
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ISBN:
Category : Clay soils
Languages : en
Pages : 24

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Fall Tillage for Soybean Grown on Delta Clay Soils

Fall Tillage for Soybean Grown on Delta Clay Soils PDF Author:
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ISBN:
Category : Soybean
Languages : en
Pages : 20

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Fall Deep Tillage of Tunica and Sharkey Clay

Fall Deep Tillage of Tunica and Sharkey Clay PDF Author: Richard A. Wesley
Publisher:
ISBN:
Category : Clay soils
Languages : en
Pages : 26

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Deep Tillage of Graded-furrow-irrigated Pullman Clay Loam

Deep Tillage of Graded-furrow-irrigated Pullman Clay Loam PDF Author: J. T. Musick
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Category : Irrigation
Languages : en
Pages :

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Bulletin

Bulletin PDF Author:
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ISBN:
Category : Agriculture
Languages : en
Pages : 916

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Fall Tillage for Soybean Grown on Delta Day Soils

Fall Tillage for Soybean Grown on Delta Day Soils PDF Author: L. G. Heatherly
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ISBN:
Category :
Languages : en
Pages : 9

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Conventional soybean production in the midsouthern United States has involved planting in a seedbed that had been shallow-tilled in the fall or spring just before planting. Moisture deficits that frequently occur during the growing season reduce yield of soybean in this traditional production system. Field experiments were conducted at Stoneville, Mississippi (lat 33°26'N), on Tunica clay (clayey over loamy, smectitic, nonacid, thermic, Vertic Haplaquept) and Sharkey clay (very-fine, smectitic, thermic chromic Epiaquert) from 1993 through 2000. The objective was to compare yields and economic returns from plantings of MG IV and V soybean varieties grown on the two soils after shallow (ST) and deep (DT) fall tillage. Net returns were calculated as the difference between income and all direct and indirect costs excluding those for land, management, and general farm overhead. Costs for tillage in DT were $12 ti $17 per acre greater than those for tillage in ST. Yields and net returns resulting from DT were greater than those from ST in all years on the Tunica soil. Yields and net returns from nonirrigated April/early May plantings after DT on Sharkey clay were significantly greater than those from ST in only 1 year out of 5. Yields and net returns from nonirrigated mid-May/early June plantings after DT were never significantly different from those of ST. The DT treatment followed by irrigation of the soybean crop the following year did not affect yield or net return. These results indicate that deep tillage of Tunica clay soil will result in significantly greater yield and net return. while deep tillage of Sharkey clay soil only has potential for increasing both when plantings are made in early April.