Spelling suggestions: "subject:"forirrigation"" "subject:"words:irrigation""
1 |
The influence of variable amounts of irrigation water and nitrogen fertilizer and their interaction on the development, growth and nitrogen uptake of grain orghum.Refay, Yahya Ali. January 1989 (has links)
The influence of variable amounts of irrigation water and nitrogen fertilizer and their interaction on the development, growth, grain yield and nitrogen uptake of grain sorghum were studied under monocrop (May 21 planting) and simulated double crop (July 1 planting) in the 1985 growing season and under monocrop in the 1986 growing season. Six grain sorghum hybrids, three of which had a higher grain yielding ability and the other three with a lower grain in yielding ability, were used in this study conducted at the University of Arizona, Marana Agricultural Center. All six hybrids were grown under two planting dates (May 21, July 1), two levels of irrigation water (dry, wet), and two levels of nitrogen fertilizer (0, 112 kg N/ha) in the 1985 growing season. In the 1986 growing season, two hybrids were grown under three levels of irrigation water (dry, medium, and wet) and three levels of nitrogen fertilizer (0, 84, 168 kg N/ha). Planting on May 21 (monocrop) had more days to 50% bloom, leaf area, heads number, grain yield and total dry weight than the July 1 planting (double crop). However, planting on July 1 produced a longer head exsertion (peduncle length) compared to May 21 planting. Head length, plant height, 500 seed weight, and grain volume-weight were not affected by planting date. Water stress reduced head exsertion, head length, plant height, head number, 500 seed weight, grain yield and total dry matter. However, numbers of days to 50% bloom were increased by dry treatment. Leaf area and grain volume-weight were not significantly affected by water levels. Under the conditions of this study, nitrogen fertilizer rates did not produce an effect on most of the agronomic characteristics of grain sorghum hybrids studied in this experiment. However, increased nitrogen fertilizer rates increased the uptake and nitrogen concentration in all growth stages of hybrids in the 1986 growing season.
|
2 |
FIELD EVALUATION OF DROUGHT TOLERANCE IN SORGHUM GENOTYPES PRE-SELECTED BY IRRIGATION GRADIENT.Bourque, Peter James. January 1982 (has links)
No description available.
|
3 |
Effect of soil-moisture and spacing on grain and stover production of sorghum (Sorghum bicolor (L.) Moench) in the irrigated desertSato, Masahito, 1942- January 1977 (has links)
No description available.
|
4 |
Estimating the marginal productivity of pesticides on irrigated corn and grain sorghum farms in western KansasSleper, James R. January 2011 (has links)
Typescript (photocopy). / Digitized by Kansas Correctional Industries
|
5 |
Water Use Efficiency of Forage Sorghum Grown with Sub-optimal Irrigation, 2009Ottman, Michael J. 09 1900 (has links)
A forage sorghum irrigation study was conducted at Maricopa, AZ to determine water use and if sub-optimal irrigation increases water use efficiency and profitability. Sorghum was planted on July 10 with a row spacing of 40 inches and irrigated three times with a total of 8.7 inches of water to establish the crop. Variable amounts of irrigation water were applied commencing on Aug 12 based on 25, 50, 75, and 100% of estimated crop water use (evapotranspiration, ET). The plots were 53.3 ft wide (16 rows) and 40 ft long. ET was estimated from soil water measurements using a neutron probe. The total amount of water applied was 15.5, 19.8, 23.7, and 27.8 inches for the 25, 50, 75, and 100% ET treatments, respectively. The forage was harvested on Oct 28 near the soft dough stage. Forage yields adjusted to 70% moisture were 11.3, 16.4, 21.5, and 23.1 tons/acre for the 25, 50, 75, and 100% ET treatments, respectively. Yield produced per inch of water used by the crop (WUEET, water use efficiency of water used in ET) increased with water application. Yield produced per inch of water applied to the crop (WUEirr, water use efficiency of irrigation water applied plus rainfall) also increased with water application, but then decreased from the 75 to 100% ET treatments. Nevertheless, sub-optimal irrigation strategies are not economical using the results from this study assuming a water cost of $45 per acre-foot and a sorghum silage value of $20 per ton. For sub-optimal irrigation strategies to be economical, water costs would have to increase, sorghum silage value would have to decrease, or the differences in the irrigation efficiencies of the strategies being compared would have to be greater than measured in the present study.
|
6 |
Estimating crop water requirements in south-central KansasKazemi, Hossein V January 2010 (has links)
Typescript (photocopy). / Digitized by Kansas Correctional Industries
|
7 |
A linear programming crop selection model for irrigation in southwest Kansas with water and soil moisture constraintsMeyer, Douglas Brian. January 1985 (has links)
Call number: LD2668 .T4 1985 M49 / Master of Science
|
Page generated in 0.0602 seconds