Global ETD Search

281	The Influence of Cover Crop Termination Strategies and Supplemental Nitrogen on Sweet Corn Yield and Nitrogen Use Efficiency Sunuwar, Sachina 13 May 2022 (has links) (PDF) Cover crops are instrumental in nutrient management and soil health. A field experiment was conducted from fall 2020 to summer 2021 to evaluate the efficiency of different cover crop termination techniques and supplemental nitrogen on sweet corn yield, ear quality and nitrogen use efficiency. The four termination types are herbicide and disk tillage (HDT), herbicide no-till (HNT), cultivation disk till (CDT), and roller crimped no-till (RCNT). These termination types were each divided into four different nitrogen treatment: 0%, 33%, 67% and 100% of the recommended doses (145 kg haˉ¹). Sweet corn yield was highest and % unfilled tip was lowest when cover crops terminated by CDT, followed by RCNT, HNT and HDT. The highest ear weight obtained when 100% of the recommended nitrogen rate was applied to the sweet corn. However, the highest nitrogen use efficiency was obtained when 67% of the recommended nitrogen application rate was used. Cover crop sweet corn yield cover crop termination nitrogen use efficiency roller crimper Agriculture Agronomy and Crop Sciences Life Sciences Plant Sciences
282	Evaluation for using expended bioelectrochemical systems as soil amendments for improved corn plant growth and a drought resistant soil. Sauers, Jackson Lee 09 December 2022 (has links) A long-held practice is to mix agricultural soil with a soil amendment to improve growing conditions in crops. A common soil amendment is biosolids produced from both municipal and dairy wastewater due to the macro- and micronutrients within it. Both the agricultural and wastewater industries are participating in the Circular Economy concept (CEC). Two experiments explored using expended bioelectrochemical systems (BES) that treated either synthetic dairy wastewater (DWW) or synthetic municipal wastewater (SWW) as soil amendments to improve corn plant growth when treated with three different nutrient treatments: 100%- 50%- and 0% Hoagland Nutrient Solutions. Biochar and used terracotta clay were used as soil amendments too. Additionally, the DWW and SWW soil amendments are being invested to see if soil moisture can be retained during simulated drought conditions. The experiments took place in the late fall and winter of 2021 and summer of 2022 in Starkville, Mississippi. Biochar Bioelectrochemical Systems Corn Drought Soil Amendment Agricultural Science Agronomy and Crop Sciences Civil Engineering Environmental Engineering Other Plant Sciences
283	Effect of cover crops, grazing and tillage practices on soil microbial community composition, function, and soil health in east central Mississippi soybean production system. Sinha, Namita 09 August 2022 (has links) Integrating crop and livestock is being considered to improve soil health by carbon sequestration. A two-year study (2019-2021) at CPBES in Newton, MS was aimed to evaluate soil microbial diversity in the warm, humid regions, specifically southeastern USA. Amplicons targeting bacterial 16S rRNA genes and fungal ITS2 regions were sequenced. Taxonomic assignment and microbial diversity characterization were performed using QIIME2®. Soil fungal diversity showed significant differences (alpha diversity, p = 0.031 in yr. 2020 and beta diversity, p = 0.037 in yr. 2021). Canonical Correspondence Analysis (CCA) and Mantel test showed significant influence on fungal diversity due to carbon (rm = 0.2581, p = 0.022), nitrogen (rm = 0.2921, p = 0.0165) in yr. 2021, and on bacterial diversity due to EE-GRSP (rm = 0.22, p = 0.02) in yr. 2020. Long term study of ICLS can help us better understand the shift in microbiome to improve crop production sustainably. Cover crops Grazing Tillage 16SrRNA ITS2 region Illumina Miseq paired end sequencing QIIME Amplicon sequencing Soil Characterization Soil Health Agronomy and Crop Sciences Biodiversity Bioinformatics Plant Sciences
284	Cover crops and irrigation impacts on corn and soybean production in the Mid-Southern USA Russell, Dillon Aaron 13 May 2022 (has links) (PDF) Reducing groundwater withdrawals from the Mississippi River Valley Alluvial Aquifer is imperative to sustain future irrigated cropping systems in the mid-southern USA. This research was conducted to determine the impacts of cover crops and irrigation sensor thresholds on corn (Zea mays L.) and soybean (Glycine max L.) production, water productivity, irrigation water use efficiency, and soil physical properties in the Mississippi Delta. The cover crop treatments included cereal rye (Secale cereale L.), hairy vetch (Vicia villosa R.), wheat (Triticum aestivum L.)-radish (Raphanus sativus L.)-turnip (Brassica rapa L.) mix, and no cover crop. The irrigation thresholds included -40 kPa, -90 kPa, and no irrigation. In 2020, cover crops and irrigation thresholds showed minimal impacts on most of the measured parameters but showed improvements as the study progressed. After two years, it was determined that long-term evaluations are needed to make a recommendation to producers in the mid-southern USA. Cover crops Irrigation threshold Irrigation water use efficiency Mississippi Delta Soil physical properties Water productivity Agronomy and Crop Sciences Water Resource Management
285	Managing iron deficiency chlorosis (IDC) in soybean through a cropping system approach Waldrep, Katelin Savannah 12 May 2023 (has links) (PDF) Iron deficiency chlorosis (IDC) is a frequent problem throughout many areas of the United States where soils are high in calcium carbonate (CaCO3), including the Blackland Prairie regions of Mississippi. The main objectives of this study were to 1) determine the effects of seven different cropping systems on IDC visual symptomology and grain yield in rainfed soybeans grown in calcareous soils, and 2) evaluate the effects of soil water tension (SWT) on IDC. Rotating soybeans with corn produced significantly higher yields for both tolerant and susceptible soybean varieties. IDC symptomology was worse, and yields were lower in cropping systems with lower average SWT, or wetter soils, throughout the growing season. Last, this study evaluated the use of multispectral imagery and apparent soil electrical conductivity (ECa) to identify IDC-prone areas of a field for the site-specific implementation of management strategies that produced higher yields in the plot-scale study. iron deficiency chlorosis (IDC) Mississippi Alabama Blackland Prairie site-specific management soil water tension (SWT) soybean Agronomy and Crop Sciences Bioresource and Agricultural Engineering
286	Physiological and yield responses of soybean cultivars to heat and drought stresses Poudel, Sadikshya 12 May 2023 (has links) (PDF) Soybean (Glycine max L.) is an important legume crop often exposed to heat and drought stresses during reproductive and early-seed setting stages, resulting in lower yields and seed quality. Ten soybean cultivars were phenotyped for individual (drought or heat) and combined stress tolerance. Under drought, reduced stomatal conductance and increased canopy temperature significantly reduced seed number (46%) and weight (35%). Heat stress alone reduced seed number (19%) and weight (23%) compared to control. Moreover, a degree increase in daytime temperature above 32 °C during the reproductive stage reduced seed weight by 4% and 7% under well-watered and drought conditions, respectively. Seed protein was increased under drought, while it declined under heat and combined stress compared to control. In contrast, oil content showed the opposite trend. Weak correlations between phenotypic traits under individual and combined stress suggest that selecting cultivars for individual stress tolerance may not work under combined stress conditions. Glycine max abiotic stress midsouth soybean production climate change crop resilience combined heat and drought stress reproductive traits soybean quality stress tolerance plasticity Agronomy and Crop Sciences
287	Tobacco Farming: The Persistence of Tradition Umberger, Eugene, Jr. 01 December 1975 (has links) The culture of tobacco has been associated with the history of Kentucky almost from the beginning and remains to this day a vital force in the state’s economy. In this age of scientific and technological advances – of increasing automation – we find that in tobacco farming, hand labor still figures prominently in the production of a major staple crop. This has resulted in the retention of traditional method, technology and terminology, long since lost in the culture of other crops which lent themselves more easily to mechanization. The study is divided into three parts. Chapter I deals briefly with the validity of a folkloristic study of tobacco farming, the origin and cultural diffusion of tobacco, the history of tobacco in Kentucky, and the focus of the present study. Chapter II describes the traditional methods used in raising Burley tobacco during the general period between the Civil War and the Second World War, noting later innovations where appropriate. Chapter III examines as a case study the growing of a Burley crop on a specific farm in order to make a firsthand evaluation of the relative strength and persistence of tradition in a present-day farming situation. Western Kentucky University Tobacco Agriculture Agronomy and Crop Sciences Anthropology Arts and Humanities Cultural History Folklore History Life Sciences Plant Sciences Social and Behavioral Sciences Social and Cultural Anthropology Social History United States History
288	Measured Soil Hydraulic Properties as RZWQM2 Input to Simulate Soil Water Dynamics and Crop Evapotranspiration Shahadha, Saadi Sattar 01 January 2018 (has links) Agricultural system models integrate many different processes that cannot all be measured in field experiments and help quantify soil water dynamics, crop evapotranspiration, and crop growth with high temporal resolution. Understanding soil water dynamics and crop evapotranspiration is essential to improve agricultural management of field crops. For example, the interaction between nitrogen application rate and water dynamics is not sufficiently understood. In most cases, model simulations deviate from field measurements, especially when model input parameters are indirectly and unspecifically derived. The extent to which measured soil hydraulic property inputs decrease the discrepancy between measured and simulated soil water status is not well understood. Consequently, this study: (i) investigated thr use of measured soil hydraulic properties as Root Zone Water Quality Model (RZWQM2) inputs compared to indirectly derived inputs; (ii) explored the capability of calibrating measured soil hydraulic property input parameters for one crop and using them for other crops without further calibration; (iii) studied the effect of the nitrogen application rate on the behavior of soil water dynamics and crop evapotranspiration using RZWQM2 under different rainfall amounts. To evaluate the model in different field management conditions, a field experiment with soybean, corn, wheat, and fallow soil was conducted from 2015 – 2017 to collect field data to calibrate and validate the RZWQM2 model. The model presented a satisfactory response to using measured soil hydraulic property inputs and a satisfactory capability to quantify the effect of nitrogen rates on daily crop evapotranspiration, soil water dynamics, and crop growth. With sufficient measurements of soil hydraulic parameters, it was possible to build a RZWQM2 model that produced reasonable results even without calibration. Measured Soil Hydraulic Properties Model Calibration RZWQM2 Soil Water Dynamics Evapotranspiration Behavior Nitrogen Application Rate Agricultural Science Agriculture Agronomy and Crop Sciences Ecology and Evolutionary Biology Laboratory and Basic Science Research Philosophy of Science
289	FIELD EVALUATION OF TOBACCO ENGINEERED FOR HIGH LEAF-OIL ACCUMULATION Perry, James 01 January 2019 (has links) The biofuel market is dominated by ethanol and biodiesel derived from cellulosic and lipid-based biomass crops. This is largely due to the relatively low costs and reliability of production. At present, production of non-food plant-derived oils for biofuel production in the U.S. is minimal. A research team from the Commonwealth Scientific and Industrial Research Organization (CSIRO), an independent Australian federal government research institution, has developed an efficient transgenic system to engineer oil production in tobacco leaves. This novel system is comprised of multiple transgenes that direct the endogenous metabolic flux of oil precursors towards triacylglycerol (TAG) production. Additional genes were incorporated to store and protect the accumulated oil in vegetative tissues. Preliminary greenhouse tests by the CSIRO research group indicated an oil content of > 30% by dry weight (DW) in tobacco leaf lamina. Here we evaluated two transgenic lines against a non-transgenic control in 2017 and 2018 in greenhouse and field production systems. The 2017 pilot study showed that the high leaf-oil tobacco line was viable and will grow in the field in Kentucky. Chemical analyses revealed significantly higher oil content compared to the non-transgenic control despite several logistical setbacks. These promising discoveries prompted the deployment of additional transgenic line assessments and further data validation in 2018. Line evaluations in 2018 revealed that the LEC2:WRI1:DGAT:OLE transgenic line had the highest leaf oil content (≥ 19.3% DW-1) compared to both the WRI1:DGAT:OLE transgenic line (≤ 5.6% DW-1) and non-transgenic control (≤ 2.1% DW-1). The results of this research will contribute to the successful development of transgenic tobacco lines engineered to accumulate high concentrations of TAG in the leaves. tobacco Nicotiana tabacum biofuel leaf-oil triacylglycerol (TAG) wrinkled-1 (WRI1) diacylglycerol acyltransferase 1 (DGAT1) oleosin (OLE) leafy cotyledon 2 (LEC2) Agricultural Science Agronomy and Crop Sciences Biotechnology Plant Breeding and Genetics
290	Soil health as influenced by the integration of cover crops and poultry litter in north-central Mississippi Kovvuri, Nikitha Reddy 08 August 2023 (has links) (PDF) Soil health-based agricultural management practices are widely promoted to improve soil structure, infiltration and reduce erosion. This study was conducted at two locations in North-Central Mississippi to evaluate the influence of different cover crop species and poultry litter on soil health that can impact crop production, climate change, and resilience. The results indicated that the cover crops showed a little effect on some soil health indicators compared to control treatment. However, in one location, rye, and a mixture of cover crops decreased bulk density and increased available water content and organic matter. The poultry litter had a positive effect on most soil physical and chemical health indicators. The cover crop species at Pontotoc decreased bulk density, increased field capacity, CEC, and total carbon. However, there was no significant effect of cover crops on most soil chemical health indicators, and soil responses may take more than five years for the changes to appear. Cover crops poultry litter organic manure soil type soil health indicators soil physical health soil chemical health soil health score conservative management practices sustainable agriculture Agronomy and Crop Sciences Horticulture

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