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11	Influence of stage of growth on the yield, chemical composition and nutritive value of a sorghum-sudangrass forage Keane, George Peter, January 1967 (has links) Thesis (M.S.)--University of Wisconsin--Madison, 1967. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references. Sorghum. Sudan grass. Feeds
12	Testing sorghum and sudangrass for drought tolerance Hanafi. January 1980 (has links) Thesis (M.S.)--University of Wisconsin--Madison. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 62-64). Sorghum. Sudan grass.
13	Environmental breeding and inheritance studies of hydrocyanic acid in sudan grass Sorghum vulgare var. sudanensis Hogg, Peter G. January 1941 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1941. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 49-51). Sudan grass Hydrocyanic acid.
14	The effect of certain nutrient elements upon the hydrocyanic acid content of sudan grass grown in solution culture Patel, Chhotabhai Jethabhai, January 1957 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1957. / Typescript. Abstracted in Dissertation abstracts, v. 17 (1957) no. 6, p. 1181. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 104-107). Sudan grass. Hydrocyanic acid.
15	Effect of irrigation water quality, sulfuric acid and gypsum on plant growth and on some physical and chemical properties of Pima soil Alawi, Badier Jassim, January 1977 (has links) (PDF) Thesis (Ph. D. - Soil, Water and Engineering)--University of Arizona. / Includes bibliographical references. Soils Sudan grass. Irrigation water.
16	A study of genes affecting cyanogenetic glycoside content and other characters in Sudan grass, Sorghum sudanese (Piper) Stapf Carlson, Irving T. January 1955 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1955. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 78-81).
17	Effect of row spacing and seeding rate on forage production and chemical composition of two sorghum cultivars harvested at two cutting frequencies Koller, Horace Ronald, January 1967 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1967. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references. Forage plants Sudan grass. Sorghum.
18	Effect of irrigation water quality, sulfuric acid and gypsum on plant growth and on some physical and chemical properties of Pima soil Alawi, Badier Jassim,1946- January 1977 (has links) Field and laboratory experiments to determine the effect of the quality of irrigation water and the combination effects of the quality of water and chemical amendments (Gypsum and H ₂SO₄) on growth and yields of sudangrass, total soluble salt and ionic distribution and the infiltration rates of a Pima soil were conducted. Pima soil was classified as calcareous saline-sodic soil. A field experiment was conducted on the University of Arizona Experimental Farm at Safford, Arizona, for a period of five years. During the first three years, three qualities of water as supplied by well, river and city were used. During the last two years, these waters were coupled with two chemical amendments, gypsum and sulfuric acid. The experiment was a randomized split plot design with nine main plots and 27 subplots and three replications. The rates of the amendments were arbitrarily chosen 1 and 1.72 ton/acre of H ₂SO₄ and gypsum respectively. Four harvests were made over the two-year period and city water treatment gave the best growth and yield of sudangrass as compared to well and river water treatments. H ₂SO₄ and gypsum increased the yield significantly in comparison to the control in 1975. No significant effects of the chemical amendments on the growth and yield of sudangrass were obtained in 1976. Significant negative correlations between the EC and ESP of the first two feet of soil and yield of sudangrass were obtained. Soil analysis indicated that significant decrease in the pH and ESP of the soil resulted from H ₂SO₄ application with the three water treatments. Gypsum reduced pH and ESP significantly just with well water treatment. Due to the stratified texture of soil profile, ions and salts accumulated in the center of the sampled profile. Infiltration rates were higher for well water treatments than for city water treatments. H ₂SO₄ increased the infiltration rates significantly with all water treatments; gypsum increased infiltration only with well water treatment. Infiltration was further studied in the laboratory using soil columns. Two rates of acid and two rates of gypsum were used (1 or 5 and 1.72 or 8.6 ton/acre H ₂SO₄ and gypsum respectively). The higher rate of H ₂SO₄ gave the highest infiltration rate and the lowest infiltration rates were obtained with control with all water treatments. The low rate of H ₂SO₄ and the high rate of gypsum gave similar infiltration rates with the three water treatments. Gypsum treated soil columns required more water to be leached to a specific EC than H ₂SO₄ treated and control columns. More salt can be removed from the soil per unit volume of water with H ₂SO₄ treatment than gypsum or untreated soil. The poorest quality of irrigation water required the least time and amount of water needed to reach equilibrium between the solid and solution phases of soil. The EC of effluent was found to be an index to predict the presence of gypsum and lime in the soil under very low water penetration. Regression equations were developed to predict the time and depth of water required to leach one foot of Pima soil column to a specific EC with a given quality of water and a given type and rate of chemical amendments (H ₂SO₄ and gypsum). A regression equation was developed to estimate the EC of the saturation extract from that of 1:1 soil :water ratio for Pima soil. Hydrology. Soils -- Arizona -- Safford. Sudan grass. Irrigation water.
19	Influence of a sudangrass green manure on microorganisms and early dying of potatoes in two soils Parks, Robin L. 22 April 1998 (has links) Effect of a sudangrass green manure in two soil types on the activity, populations and community structure of soil microorganisms, populations of Verticillium dahliae in soil and on potato roots, and potato early dying, were evaluated in a field microplot experiment in the Columbia Basin. Potato cv. Russet Burbank was grown in identical green manure and fallow soil treatments transported from Idaho and Washington where sudangrass previously suppressed or enhanced early dying of potatoes, respectively. Incorporation of sudangrass increased total microbial activity (TMA) by 46.2 and 30.1% in the Idaho soil in 1996 and 1997, and by 43.0% in the Washington soil in 1996 only. Neither green manure or soil type, however, affected soil populations of Fusarium, total bacteria, or actinomycetes. Across soil type, fluorescent pseudomonad populations were unaffected or increased by 107% in 1996 and 1997, respectively. Although not repeated across years, Fusarium root populations were 19.7 and 28.3% higher in sudangrass treated soil from Washington in 1996 and Idaho in 1997, respectively, but the proportion of Fusarium species were similar across soil types. Bacterial rhizosphere communities, based on sole-carbon-source utilization patterns on Biolog GN microplates, did not differ among the soil types or green manure treatments. Across soil type, V. dahliae soil and root populations were unaffected in 1996, but were lower by 20.4 and 41.2% in Idaho sudangrass soil treatments in 1997. Apical stem populations of V. dahliae and disease severity, however, did not differ among the treatments. Although tuber yield in Washington soil was 31.5% higher than Idaho soil in 1996, yield was not affected by a sudangrass green manure. Because suppression of early dying of potato observed in Idaho was not replicated in transported soil in the Columbia Basin, the macroenvironment may interact with the sudangrass green manure to regulate the effect, or lack of effect on disease. TMA is not an indicator of disease suppressive ability of a soil following sudangrass as activity increased despite a lack of effect on disease. Based on this study, there is no evidence for differences in microbial populations or communities between the Idaho and Washington soils that could explain the suppression or enhancement of early dying of potato by a sudangrass green manure. / Graduation date: 1998 Potatoes -- Idaho Potatoes -- Washington (State) Sudan grass Soil microbiology -- Idaho Soil microbiology -- Washington (State)
20	Host-status and host-sensitivity of hybrid sorghum-Sudan grass to tropical meloidogyne species and races and infection of the nematode-susceptible sweet potato from residual soil nematodes Selapa, Vision Tabi January 2021 (has links) Thesis (M. Sc. (Plant Protection)) -- University of Limpopo, 2021 / Worldwide, root-knot (Meloidogyne species) nematodes are considered to be the most important and damaging genus in crop husbandry. The existence of a wide host range, over 2000 plants, and several biological races, makes the management of this nematode genus difficult with nematode-resistant crop Hybrid Sorghum Sudan grass (Sorghum bicolor × Sorghum Sundanese) has been classified as being resistant to certain Meloidogyne species and races, with a wide range of uses in crop rotation intended to manage nematode population densities. However, due to the ability of nematodes to enter chemiobiosis when gradually exposed to chemicals, this hybrid might not be effective in managing nematode population densities for the subsequent highly susceptible sweet potato (Ipomoea batatas L.) cultivars. The objective of the study was to determine whether hybrid Sorghum-Sudan grass would suppress M. javanica (Trial 1), M. incognita race 2 (Trial 2) and M. incognita race 4 (Trial 3) population densities, allowing a nematode susceptible sweet potato cv. ′Beauregard′ as successor crop to be cultivated without suffering nematode damage. The hybrid Sorghum-Sudan grass study was conducted under greenhouse conditions, with seven inoculation levels, namely, 0; 5; 25; 125; 625; 3 125 and 15 625 eggs and second-stage juveniles (J2) of each nematode species or race, arranged in randomised complete block design, with six replications and validated in time. Plant growth, foliar nutrient elements and nematodes were collected at 56 days after inoculation and prepared for analysis using standard methods. The reproductive factor (RF) at all levels was zero, whereas nematode inoculation at all levels did not have any effect on plant growth of the hybrid Sorghum-Sudan grass. However, the nematode levels affected the accumulation of nutrient elements and the quality of forage. After cultivating the susceptible sweet potato cultivar in pots xxx previously with hybrid Sorghum-Sudan grass at increasing levels of M. javanica alone, that is in Trial 1, similar results were observed with respect to RF and lack of nematode damage to plant growth. Consequently, the hybrid was suitable for use in crop rotation with sweet potato for the purpose of managing nematode population densities of thermophilic Meloidogyne species and/or races. / National Research Foundation of South Africa (NRF) and the Agricultural Research Council (ARC) Root-knot Nematodes Crop husbandry Meloidogyne species Nematode-resistant crops Soil pests Root-knot nematodes Hybrid sorghum Crop rotation Plant nematodes Sudan grass Sweet potatoes -- Diseases and pests

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