Molybdenum Status of Subclover (Trifolium Subterraneum) as Affected by Mo and S Fertilization and Soil Type PDF Download
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Author: Wesley M. Jarrell
Publisher:
ISBN:
Category : Subterranean clover
Languages : en
Pages : 182
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Book Description
Field studies designed to study residual effects from fertilizer molybdenum were initiated in September 1971 on established grass-clover pastures at ten sites in Western Oregon. Treatments were 0.0 and 1.12 kg molybdenum /ha on plots receiving 0-35-0-20S fertilizer (elemental sulfur-S) and 0.0, 0.56, 1.12 and 2.24 kg molybdenum /ha on plots receiving single superphosphate. Treatments were replicated four times in a randomized block design. Forage yields were measured during the spring in 1972 and 1973. Subterranean clover samples were analyzed for nitrogen, sulfur, copper and molybdenum. Yield response to applied molybdenum was noted on three harvests of seventeen; these responses were all on plots receiving single superphosphate. Clover nitrogen and copper levels were not significantly affected by molybdenum application. Form of sulfur fertilizer had a profound effect on molybdenum uptake by clover. On plots which received 1.12 kg Mo /ha, application of elemental sulfur (0-35-0-20S) produced plants much lower in molybdenum than did single superphosphate application. It was hypothesized that depression of Mo uptake resulted from one or a combination of the following phenomena: (1) a decrease in soil pH, (2) increased competition between sulfate and molybdate for absorption by the plant, and (3) increased leaching of molybdate due to the sulfate release pattern of the elemental sulfur material. Samples of the surface 10 cm of soil from each treatment were analyzed for anion exchange resin extractable molybdenum. Correlation between plant molybdenum and soil molybdenum was significant where all harvests were considered together, but the correlation was improved by separating soils into two groups. The soils in one of these groups were found to sorb large amounts of molybdenum, to release high amounts of hydroxyl anions on treatment with sodium fluoride, and to contain large amounts of amorphous and exchangeable iron compared with soils in the other group. Laboratory studies were carried on to investigate the molybdenum adsorption patterns peculiar to these soils. Surface samples were taken from eight of the field sites which showed a large range of molybdenum responses. Molybdenum solutions (0-20 ppm Mo in 0.01 M CaCl2) were allowed to equilibrate with soil at 25° C and the supernatant molybdenum concentration measured. Molybdate adsorption by soils was found to conform to the Freundlich adsorption isotherm in all instances. Four of the eight soils showed sorption patterns which followed the Langmuir adsorption isotherm at low equilibrium concentrations. The increase in solution hydroxyl concentration measured two minutes after mixing soil with 1 N NaF correlated significantly with molybdate adsorption at an equilibrium concentration of 0.03 ppm Mo. The fluoride ions may be reacting directly or indirectly with soil constituents responsible for molybdate retention. Iron extracted in ammonium acetate, pH 4.8, and ammonium oxalate, pH 3.3, correlated significantly with molybdate sorbed at an equilibrium concentration of 0.03 ppm, and with hydroxyls measured by the above sodium fluoride technique. Neither citrate-dithionite extractable iron nor aluminum in ammonium acetate and ammonium oxalate extracts were significantly correlated with molybdate sorption. Oxalate-extractable aluminum was significantly related to hydroxyls released with sodium fluoride. No correlation was found between laboratory measurements of molybdate retention by soils and the increases in clover molybdenum following molybdenum fertilization. It is suggested that several parameters not investigated in the present study such as soil moisture content, phosphate and sulfate levels, and the soil organic regime may affect rates of molybdate uptake into and translocation through the plant. Results indicate that it is difficult to predict the effect of molybdenum application on plant uptake of molybdenum in the field. A larger number of samples representing a vast range of soils appears desirable to reliably predict residual effects from applied fertilizer molybdenum.
Author: Wesley M. Jarrell
Publisher:
ISBN:
Category : Subterranean clover
Languages : en
Pages : 182
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Book Description
Field studies designed to study residual effects from fertilizer molybdenum were initiated in September 1971 on established grass-clover pastures at ten sites in Western Oregon. Treatments were 0.0 and 1.12 kg molybdenum /ha on plots receiving 0-35-0-20S fertilizer (elemental sulfur-S) and 0.0, 0.56, 1.12 and 2.24 kg molybdenum /ha on plots receiving single superphosphate. Treatments were replicated four times in a randomized block design. Forage yields were measured during the spring in 1972 and 1973. Subterranean clover samples were analyzed for nitrogen, sulfur, copper and molybdenum. Yield response to applied molybdenum was noted on three harvests of seventeen; these responses were all on plots receiving single superphosphate. Clover nitrogen and copper levels were not significantly affected by molybdenum application. Form of sulfur fertilizer had a profound effect on molybdenum uptake by clover. On plots which received 1.12 kg Mo /ha, application of elemental sulfur (0-35-0-20S) produced plants much lower in molybdenum than did single superphosphate application. It was hypothesized that depression of Mo uptake resulted from one or a combination of the following phenomena: (1) a decrease in soil pH, (2) increased competition between sulfate and molybdate for absorption by the plant, and (3) increased leaching of molybdate due to the sulfate release pattern of the elemental sulfur material. Samples of the surface 10 cm of soil from each treatment were analyzed for anion exchange resin extractable molybdenum. Correlation between plant molybdenum and soil molybdenum was significant where all harvests were considered together, but the correlation was improved by separating soils into two groups. The soils in one of these groups were found to sorb large amounts of molybdenum, to release high amounts of hydroxyl anions on treatment with sodium fluoride, and to contain large amounts of amorphous and exchangeable iron compared with soils in the other group. Laboratory studies were carried on to investigate the molybdenum adsorption patterns peculiar to these soils. Surface samples were taken from eight of the field sites which showed a large range of molybdenum responses. Molybdenum solutions (0-20 ppm Mo in 0.01 M CaCl2) were allowed to equilibrate with soil at 25° C and the supernatant molybdenum concentration measured. Molybdate adsorption by soils was found to conform to the Freundlich adsorption isotherm in all instances. Four of the eight soils showed sorption patterns which followed the Langmuir adsorption isotherm at low equilibrium concentrations. The increase in solution hydroxyl concentration measured two minutes after mixing soil with 1 N NaF correlated significantly with molybdate adsorption at an equilibrium concentration of 0.03 ppm Mo. The fluoride ions may be reacting directly or indirectly with soil constituents responsible for molybdate retention. Iron extracted in ammonium acetate, pH 4.8, and ammonium oxalate, pH 3.3, correlated significantly with molybdate sorbed at an equilibrium concentration of 0.03 ppm, and with hydroxyls measured by the above sodium fluoride technique. Neither citrate-dithionite extractable iron nor aluminum in ammonium acetate and ammonium oxalate extracts were significantly correlated with molybdate sorption. Oxalate-extractable aluminum was significantly related to hydroxyls released with sodium fluoride. No correlation was found between laboratory measurements of molybdate retention by soils and the increases in clover molybdenum following molybdenum fertilization. It is suggested that several parameters not investigated in the present study such as soil moisture content, phosphate and sulfate levels, and the soil organic regime may affect rates of molybdate uptake into and translocation through the plant. Results indicate that it is difficult to predict the effect of molybdenum application on plant uptake of molybdenum in the field. A larger number of samples representing a vast range of soils appears desirable to reliably predict residual effects from applied fertilizer molybdenum.
Author: Harbans Singh Bhella
Publisher:
ISBN:
Category : Soils
Languages : en
Pages : 140
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Book Description
During the Spring of 1969, 47 surface soil samples (0 to 15 cm) as well as foliage samples of subterranean clover were collected from 32 selected western Oregon pastures, in an effort to determine their molybdenum status and to evaluate the use of anion exchange resin method as a means of assaying available molybdenum. The five most acid soils were limed to 80 percent base saturation. Greenhouse experiments were established during September, 1969, to evaluate the effect of molybdenum fertilization of subterranean clover yield and nutrient content. Highly significant yield and total nitrogen responses of subterranean clover were obtained following molybdenum fertilization. Greatest percent yield as well as percent total nitrogen responses to applied molybdate occurred at the lower soil anion exchangeable molybdenum concentrations. Statistically significant correlation coefficients were obtained between anion exchangeable soil molybdenum and percent yield response to applied molybdate in the greenhouse studies (r = -0. 743); anion exchangeable soil molybdenum and plant nitrogen concentrations in field subterranean clover samples (r = 0.875); anion exchangeable soil molybdenum and percent total nitrogen response to applied molybdate in the greenhouse studies (r = -0. 560); anion exchangeable soil molybdenum and plant molybdenum concentrations in field clover samples (r = 0.861); anion exchangeable soil molybdenum and soil pH (r = 0.861).
Author: Oregon State University
Publisher:
ISBN:
Category : Education
Languages : en
Pages : 138
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Author: Erric Virgil Ross
Publisher:
ISBN:
Category : Molybdenum
Languages : en
Pages : 200
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Book Description
Studies were undertaken on the Steiwer, Hazelair, Hedden, Dixonville, Knappa, Haines, Ladd, Wingville and Powder soil series plus three additional unnamed soils from western Oregon, in an effort to determine their molybdenum status and to evaluate the use of the anion exchange resin method as a means of assaying available soil molybdenum. These studies involved field and greenhouse trials with the western Oregon soils and laboratory studies on both the eastern and western Oregon soils. Lime and molybdenum, singly and in combination were applied to subterranean clover in the greenhouse and the field in an attempt to correlate resin extractable soil molybdenum with plant growth. Highly significant responses of subterranean clover were obtained from the applications of lime and molybdenum on five of the eight western Oregon soils studied. Good correlations of extractable molybdenum with plant nitrogen and dry matter yield were obtained, indicating that the anion exchange resin method holds some promise as a means of measuring available soil molybdenum.
Author: Ahmed El Tayeb Osman
Publisher:
ISBN:
Category :
Languages : en
Pages : 226
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Author:
Publisher:
ISBN:
Category : Agriculture
Languages : en
Pages : 544
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Author:
Publisher:
ISBN:
Category : Agriculture
Languages : en
Pages : 546
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Author: Umesh C. Gupta
Publisher: Cambridge University Press
ISBN: 9780521037228
Category : Technology & Engineering
Languages : en
Pages : 292
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Book Description
Molybdenum (Mo) deficiencies in field-grown plants were first recorded more than fifty years ago. This book condenses all the information currently available on the subject of molybdenum as it relates to soils, crops and livestock. The book reviews our knowledge of the chemistry and mineralogy of Mo, the extraction of available Mo from various soils, the various analytical methods of determining Mo in soils and plants, the biochemical role of Mo in crop production, the technology and application of Mo fertilizers to crops, the response to Mo of various temperate and tropical crops, Mo deficiency and toxicity in various plant species, the interaction of Mo with other plant nutrients, and the distribution of Mo within the plant. Factors affecting the availability of soil Mo to plants and Mo status in the semi-arid and sub-humid tropics are also discussed.
Author:
Publisher:
ISBN:
Category : Chemistry, Technical
Languages : en
Pages : 380
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Author:
Publisher:
ISBN:
Category : Agricultural chemistry
Languages : en
Pages : 820
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