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Soybeans for the Table.

Description: Describes the versatile nature of the soybean in cooking and provides recipes which contain soybeans.
Date: October 1938
Creator: Whiteman, Elizabeth Fuller & Keyt, Ellen Kingsley
Partner: UNT Libraries Government Documents Department

Soybeans : culture and varieties.

Description: Describes soybean varieties and how to grow them.
Date: August 1949
Creator: Morse, W. J. (William Joseph), b. 1884.; Cartter, J. L. (Jackson Leaphart), 1902- & Williams, L. F. (Leonard Freeman), 1909-
Partner: UNT Libraries Government Documents Department

Asian Soybean Rust: Background and Issues

Description: This report discusses the background and issues regarding Asian soybean rust (ASR) that was discovered in the United States in an experimental field in Louisiana. The U.S. Department of Agriculture (USDA) is coordinating a plan to deal with ASR that encompasses various USDA agencies, state land-grant universities, and industry participants. The arrival of ASR has implications for several public policies including pest control research (particularly the development of resistant varieties), pesticide regulation, disaster assistance, and crop insurance.
Date: January 12, 2005
Creator: Schnepf, Randy
Partner: UNT Libraries Government Documents Department

U.S. Regional Agricultural Production in 2030 and 2095: Response to CO2 Fertilization and Hadley Climate Model (HadCM2) Projections of Greenhouse-Forced Climatic Change

Description: Research activities underway to evaluate potential consequences of climate change and variability on the agriculture, water resources, and other U.S. sectors were mandated by the Global Change Research Act of 1990. These activities are being carried out in a public-private partnership under the guidance of the U.S. Global Change Research Program. Researchers at Pacific Northwest National Laboratory (PNNL) have been using integrated assessment methodologies to appraise the possible impacts of global warming and climatic variability on the behavior of managed and natural systems. This interim PNNL report contributes to the U.S. National Assessment process with an analysis of the modeled impacts of climatic changes projected by the Hadley/UKMO (HadCM2) general circulation model on agricultural productivity and selected environmental variables. The construction of climatic data for the simulation runs followed general guidelines established by the U.S. National Assessment Synthesis Team. The baseline climate data were obtained from national records for the period 1961 - 1990. The scenario runs for two future periods (2025 - 2030 and 2090 - 2099) were extracted from results of a HadCM2 run distributed at a half-degree spatial resolution. The Erosion Productivity Impact Calculator (EPIC) was used to simulate the behavior of 204 "representative farms" (i.e., soil-climate-management combinations) under baseline climate, the two future periods and their combinations with two levels of atmospheric C02 concentrations (365 and 560 ppm). Analysis of simulation results identified areas in Texas, New Mexico, Colorado, Utah, Arizona, and California that would experience large temperature increases by 2030. Slight cooling is expected by 2030 in parts of Alabama, Florida, Maine, Montana, Idaho, and Utah. Larger areas will experience increased warming by 2095. Uniform precipitation increases are expected by 2030 in the north eastern quarter of the country. These uniform precipitation increases are expected to expand to the eastern half of the country by ...
Date: November 19, 1999
Creator: Rosenberg, NJ & Brown, RC Izaurralde: RA
Partner: UNT Libraries Government Documents Department

Affordable Resins and Adhesives From Optimized Soybean Varieties (ARA Program)

Description: The Mission of the ARA Program was to develop the Corporate Infrastructure to mass-produce new bio-based materials from Soybeans. The resins were integrated with the bio-fuels program. (1) to research, develop, and commercialize low cost adhesives and resins from soy oil and protein, the co-products of the soy bio-diesel process. (2) to study structure-functionality of soy oil and proteins at molecular and genomic levels
Date: April 21, 2004
Creator: WOol, Dr. Richard; Sun, Dr. X. Susan & Chapas, Rich
Partner: UNT Libraries Government Documents Department


Description: The combustion of fossil fuels is profoundly altering the chemical composition of the atmosphere. Beginning with the Industrial Revolution, the concentration of carbon dioxide in the atmosphere has increased from approximately 280 to 370 {micro}l l{sup -1} in 2004, and it is expected to exceed 550 {micro}l l{sup -1} by 2050. Tropospheric ozone has risen even more rapidly than CO{sub 2} and average summer concentrations in the Northern Hemisphere are expected to continue to increase by 0.5-2.5% per year over the next 30 years. Although elevated CO{sub 2} stimulates photosynthesis and productivity of terrestrial ecosystems, ozone (O{sub 3}) is deleterious. In addition to directly affecting the physiology and productivity of crops, increased concentrations of tropospheric CO{sub 2} and O{sub 3} are predicted to lower the nutritional quality of leaves, which has the potential to increase herbivory as insects eat more to meet their nutritional demands. We tested the hypothesis that changes in tropospheric chemistry affect the relationship between plants and insect herbivores by changing leaf quality. The susceptibility to herbivory of soybean grown in elevated CO{sub 2} or O{sub 3} was examined using free air gas concentration enrichment (SoyFACE). FACE technology has the advantage that plants are cultivated under realistic field conditions with no unwanted alteration of microclimate or artificial constraints on the insect community.
Date: January 5, 2005
Partner: UNT Libraries Government Documents Department

Scale-up and Technology Transfer of Protein-based Plastic Products

Description: Over the last number of years researchers at ISU have been developing protein based plastics from soybeans, funded by Soy Works Corporation. These materials have been characterized and the processing of these materials into prototype products has been demonstrated. A wide range of net-shape forming processes, including but not limited to extrusion, injection molding and compression molding have been studied. Issues, including technology transfer, re-formulation and product consistency, have been addressed partially during this contract. Also, commercial-scale processing parameters for protein based plastic products were designed, but not yet applicable in the industry. Support in the trouble shooting processing and the manufacturing of protein based plastic products was provided by Iowa State University during the one year contract.
Date: December 8, 2008
Creator: Grewell, David
Partner: UNT Libraries Government Documents Department

Assessing Fossil and New Carbon in Reclaimed Mined Soils

Description: Soil organic carbon (SOC) pool in the reclaimed minesoils (RMS) is the mixture of coal C originating from mining and reclamation activities and recent plant-derived organic carbon (OC). Accurate estimates of OC pools and sequestration rates in the RMS are limited by lack of standard and cost-effective method for determination of coal-C concentration. The main objective of this project was to develop and test analytical procedures for quantifying pool sizes of coal-derived C in RMS and to partition organic C in RMS into coal-derived and newly deposited SOC fractions. Analysis of soil and coal artificial mixtures indicated that the {Delta}{sup 13}C method developed was very effective in estimating coal C added in the mixtures, especially soils under C4 plants. However, most of the reclaimed sites in Ohio are under C3 plants with range of {Delta}{sup 13}C signal falling within ranges of coal. The wide range of {Delta}{sup 13}C signal observed in minesoils, (i.e. -26 to -30 for plants and -23 to -26 for coal) limits the ability of this approach to be used for southeast Ohio minesoils. This method is applicable for reclaimed prime farm land under long term corn or corn soybean rotation. Chemi-thermal method was very effective in quantifying coal-C fraction in both soil-coal artificial mixtures and minesoils. The recovery of coal-C from the mixture ranged from 93 to 100% of coal. Cross-validation of chemi-thermal method with radiocarbon analysis revealed that chemi-thermal method was as effective as radiocarbon analysis in quantifying coal-C in RMS. Coal C determined after chemi-thermal treatment of samples was highly correlated with coal C concentration calculated by radiocarbon activity (r{sup 2} = 0.95, P < 0.01). Therefore, both radiocarbon activity and chemi-thermal method were effective in estimating coal carbon concentration in reclaimed minesoils of southeast Ohio. Overall, both coal-C and recent OC fraction exhibited ...
Date: September 30, 2008
Creator: Lal, Rattan & Ussiri, David
Partner: UNT Libraries Government Documents Department

Genome sequences of two Phytophthora species responsible for Sudden Oak Death and Soybean Root Rot provide novel insights into their evolutionary origins and mechanisms of pathogenesis

Description: The approximately 60 species of Phytophthora are all destructive pathogens, causing rots of roots, stems, leaves and fruits of a wide range of agriculturally and ornamentally important plants (1). Some species, such as P. cinnamomi, P. parasitica and P. cactorum, each attack hundreds of different plant host species, whereas others are more restricted. Some of the crops where Phytophthora infections cause the greatest financial losses include potato, soybean, tomato, alfalfa, tobacco, peppers, cucurbits, pineapple, strawberry, raspberry and a wide range of perennial tree crops, especially citrus, avocado, almonds, walnuts, apples and cocoa, and they also heavily affect the ornamental, nursery and forestry industries. The economic damage overall to crops in the United States by Phytophthora species is estimated in the tens of billions of dollars, including the costs of control measures, and worldwide it is many times this amount (1). In the northern midwest of the U.S., P. sojae causes $200 million in annual losses to soybean alone, and worldwide causes around $1-2 billion in losses per year. P. infestans infections resulted in the Irish potato famine last century and continues to be a difficult and worsening problem for potato and tomato growers worldwide, with worldwide costs estimated at $5 billion per year.
Date: December 1, 2005
Creator: Tyler, Brett M.; Tripathi, Sucheta; Aerts, Andrea; Bensasson, Douda; Dehal, Paramvir; Dubchak, Inna et al.
Partner: UNT Libraries Government Documents Department

Soybean production for hay and beans.

Description: Describes the production of soybean plants for both soybean-hay and soy beans themselves. Discusses storage and marketing practices.
Date: September 1950
Creator: Morse, W. J. (William Joseph), b. 1884.; Cartter, J. L. (Jackson Leaphart), 1902- & Hartwig, E. E.
Partner: UNT Libraries Government Documents Department

Process Optimization for Solid Extraction, Flavor Improvement and Fat Removal in the Production of Soymilk From Full Fat Soy Flakes

Description: Traditionally soymilk has been made with whole soybeans; however, there are other alternative raw ingredients for making soymilk, such as soy flour or full-fat soy flakes. US markets prefer soymilk with little or no beany flavor. modifying the process or using lipoxygenase-free soybeans can be used to achieve this. Unlike the dairy industry, fat reduction in soymilk has been done through formula modification instead of by conventional fat removal (skimming). This project reports the process optimization for solids and protein extraction, flavor improvement and fat removal in the production of 5, 8 and 12 {sup o}Brix soymilk from full fat soy flakes and whole soybeans using the Takai soymilk machine. Proximate analyses, and color measurement were conducted in 5, 8 and 12 {sup o}Brix soymilk. Descriptive analyses with trained panelists (n = 9) were conducted using 8 and 12 {sup o}Brix lipoxygenase-free and high protein blend soy flake soymilks. Rehydration of soy flakes is necessary to prevent agglomeration during processing and increase extractability. As the rehydration temperature increases from 15 to 50 to 85 C, the hexanal concentration was reduced. Enzyme inactivation in soy flakes milk production (measured by hexanal levels) is similar to previous reports with whole soybeans milk production; however, shorter rehydration times can be achieved with soy flakes (5 to 10 minutes) compared to whole beans (8 to 12 hours). Optimum rehydration conditions for a 5, 8 and 12 {sup o}Brix soymilk are 50 C for 5 minutes, 85 C for 5 minutes and 85 C for 10 minutes, respectively. In the flavor improvement study of soymilk, the hexanal date showed differences between undeodorized HPSF in contrast to triple null soymilk and no differences between deodorized HPSF in contrast to deodorized triple null. The panelists could not differentiate between the beany, cereal, and painty flavors. However, the ...
Date: May 31, 2003
Creator: Prawiradjaja, Stanley
Partner: UNT Libraries Government Documents Department

Soybean diseases.

Description: Discusses a multitude of diseases that affect soybean crops, the adaptability of available resistant varieties, and a small amount of control measures.
Date: March 1955
Creator: Johnson, Howard W. (Howard Wilfred), 1901-; Chamberlain, Donald W. (Donald William), 1905- & Lehman, Samuel George, 1887-
Partner: UNT Libraries Government Documents Department

Harvesting Soy-Bean Seed

Description: This bulletin gives best practices for harvesting soy beans. Soy beans can be harvested manually using farm equipment -- such as the corn knife, mower, reaper, and binder -- or with machines. Before storing, soy beans must be completely dry. Other topics discussed include harvest time, curing, handling, thrashing, and straw production.
Date: 1917
Creator: Morse, W. J. (William Joseph), b. 1884
Partner: UNT Libraries Government Documents Department

Update of distillers grains displacement ratios for corn ethanol life-cycle analysis.

Description: Production of corn-based ethanol (either by wet milling or by dry milling) yields the following coproducts: distillers grains with solubles (DGS), corn gluten meal (CGM), corn gluten feed (CGF), and corn oil. Of these coproducts, all except corn oil can replace conventional animal feeds, such as corn, soybean meal, and urea. Displacement ratios of corn-ethanol coproducts including DGS, CGM, and CGF were last updated in 1998 at a workshop at Argonne National Laboratory on the basis of input from a group of experts on animal feeds, including Prof. Klopfenstein (University of Nebraska, Lincoln), Prof. Berger (University of Illinois, Urbana-Champaign), Mr. Madson (Rapheal Katzen International Associates, Inc.), and Prof. Trenkle (Iowa State University) (Wang 1999). Table 1 presents current dry milling coproduct displacement ratios being used in the GREET model. The current effort focuses on updating displacement ratios of dry milling corn-ethanol coproducts used in the animal feed industry. Because of the increased availability and use of these coproducts as animal feeds, more information is available on how these coproducts replace conventional animal feeds. To glean this information, it is also important to understand how industry selects feed. Because of the wide variety of available feeds, animal nutritionists use commercial software (such as Brill Formulation{trademark}) for feed formulation. The software recommends feed for the animal on the basis of the nutritional characteristics, availability, and price of various animal feeds, as well as on the nutritional requirements of the animal (Corn Refiners Association 2006). Therefore, feed formulation considers both the economic and the nutritional characteristics of feed products.
Date: February 1, 2011
Creator: Arora, S.; Wu, M.; Wang, M. & Systems, Energy
Partner: UNT Libraries Government Documents Department

Genetically Engineered Soybeans: Acceptance and Intellectual Property Rights Issues in South America

Description: This report discusses issues regarding genetically engineered soybeans in South America. U.S. soybean growers and trade officials charge that Argentina and Brazil–the United States’ two major export competitors in international soybean markets–gain an unfair trade advantage by routinely saving genetically-engineered (GE), Roundup Ready (RR) soybean seeds from the previous harvest (a practice prohibited in the United States) for planting in subsequent years.
Date: October 17, 2003
Creator: Schnepf, Randy
Partner: UNT Libraries Government Documents Department

Iron regulation of gene expression in the Bradyrhizobium japonicum/soybean symbiosis. Final technical report, June 1, 1991--May 31, 1995

Description: B.japonicum produces ALA in a reaction catalyzed by the product of the hemA gene. Expression of the gene is affected by iron availability. To address the question of how the 5 prime untranslated region of the hemA transcript is involved in iron regulation, evenly spaced 10bp deletions within the hemA leader region was constructed and effects on hemA-lacZ expression were determined.
Date: February 8, 1996
Creator: Guerinot, M. L.
Partner: UNT Libraries Government Documents Department

Fumaric acid: an overlooked form of fixed carbon in Arabidopsis and other plant species

Description: Photoassimilates are used by plants for production of energy, as carbon skeletons and in transport of fixed carbon between different plant organs. Many studies have been devoted to characterizing the factors that. regulate photoassimilate concentrations in different plant species. Most studies examining photoassimilate concentrations in C{sub 3} plants have focused on analyzing starch and soluble sugars. However, work presented here demonstrates that a number of C{sub 3} plants, including the popular model organism Arabidopsis thaliana (L.) Heynh., and agriculturally important plants, such as soybean [Glycine ma (L.) Merr.], contain significant quantities of furnaric acid. In fact, furnaric acid can accumulate to levels of several mg per g fresh weight in A-abidopsis leaves, often exceeding starch and soluble sugar levels. Furnaric acid is a component of the tricarboxylic acid cycle and, like starch and soluble sugars, can be metabolized to yield energy and carbon skeletons for production of other compounds. Fumaric acid concentrations increase with plant age and light intensity in Arabidopsis leaves. Arabidopsis phloem exudates contain significant quantities of fumaric acid, raising the possibility that fumaric acid may function in carbon transport.
Date: October 1, 2000
Creator: Chia, D.W.; Yoder, T.J.; Reiter, W.D. & Gibson, S.I.
Partner: UNT Libraries Government Documents Department

Selection of herbaceous energy crops for the western corn belt

Description: The ultimate economic feasibility of biomass depends on its cost of production and on the cost of competing fuels. The purpose of this research project is to evaluate the production costs of several combinations of species and management systems for producing herbaceous biomass for energy use in Iowa. Herbaceous biomass production systems have costs similar to other crop production systems, such as corn, soybean, and forages. Thus, the factors influencing the costs of producing dedicated biomass energy crops include technological factors such as the cultivation system, species, treatments, soil type, and site and economic factors such as input prices and use of fixed resources. In order to investigate how these production alternatives are influenced by soil resources, and climate conditions, two locations in Iowa, Ames and Chariton, with different soil types and slightly different weather patterns were selected for both the agronomic and economic analyses. Nine crops in thirteen cropping systems were grown at the two sites for five years, from 1988 to 1992. Some of the systems had multiple cropping or interplanting, using combinations of cool-season species and warm-season species, in order to meet multiple objectives of maximum biomass, minimal soil loss, reduced nitrogen fertilization or diminished pesticide inputs. Six of the systems use continuous monocropping of herbaceous crops with an emphasis on production. The seven other systems consist of similar crops, but with crop rotation and soil conservation considerations. While the erosion and other off-site effects of these systems is an important consideration in their overall evaluation, this report will concentrate on direct production costs only.
Date: May 1, 1994
Creator: Anderson, I.C.; Buxton, D.R. & Hallam, J.A.
Partner: UNT Libraries Government Documents Department

Quantification of Soil Physical Properties by Using X-Ray Computerized Tomography (CT) and Standard Laboratory (STD) Methods

Description: The implementation of x-ray computerized tomography (CT) on agricultural soils has been used in this research to quantify soil physical properties to be compared with standard laboratory (STD) methods. The overall research objective was to more accurately quantify soil physical properties for long-term management systems. Two field studies were conducted at Iowa State University's Northeast Research and Demonstration Farm near Nashua, IA using two different soil management strategies. The first field study was conducted in 1999 using continuous corn crop rotation for soil under chisel plow with no-till treatments. The second study was conducted in 2001 and on soybean crop rotation for the same soil but under chisel plow and no-till practices with wheel track and no-wheel track compaction treatments induced by a tractor-manure wagon. In addition, saturated hydraulic (K{sub s}) conductivity and the convection-dispersion (CDE) model were also applied using long-term soil management systems only during 2001. The results obtained for the 1999 field study revealed no significant differences between treatments and laboratory methods, but significant differences were found at deeper depths of the soil column for tillage treatments. The results for standard laboratory procedure versus CT method showed significant differences at deeper depths for the chisel plow treatment and at the second lower depth for no-till treatment for both laboratory methods. The macroporosity distribution experiment showed significant differences at the two lower depths between tillage practices. Bulk density and percent porosity had significant differences at the two lower depths of the soil column. The results obtained for the 2001 field study showed no significant differences between tillage practices and compaction practices for both laboratory methods, but significant differences between tillage practices with wheel track and no-wheel compaction treatments were found along the soil profile for both laboratory methods. The K{sub s} measurements and CDE parameters revealed no significant ...
Date: December 12, 2003
Creator: Sanchez, Maria Ambert
Partner: UNT Libraries Government Documents Department