Analysis of a rapid soil erosion assessment tool

Bussen, Patrick

January 1900

Master of Science / Department of Biological & Agricultural Engineering / Stacy L. Hutchinson / Soil erosion is a serious problem resulting in degradation of soil systems and nonpoint source (NPS) pollution of water resources. Concentrated overland flow is the primary transport mechanism for many NPS pollutants including soil, and locating areas where sheet flow transitions into concentrated flow is useful for assessing the potential for soil erosion. The ability to predict areas where overland flow transitions to concentrated flow and soil erosion potential is high assists land managers in implementing best management practices (BMPs) to reduce soil erosion and NPS. An erosion model, called the nLS model, was developed to identify transitional overland flow regions. The model is based on the kinematic wave overland flow theory and uses Manning’s n values, flow length, and slope as inputs to determine where overland flow transitions to sheet flow and soil erosion potential increases. Currently, the model has only been tested and validated for watersheds within Kansas. In order to assess model uncertainties and evaluate the model’s applicability to other regions, a sensitivity analysis on key input parameters was conducted. To assess model operations, several sensitivity analyses were performed on model inputs, including digital elevation models (DEMs) and landuse/landcover data (LULC). The impact of slope was assessed using two methods. First, by modifying the DEMs in a stepwise fashion from flatter to steeper terrains, and second, by modifying the elevation of each DEM cell based on the associated elevation error. To assess difficulties that might arise from the parameterization of surface roughness, LULC classes were assigned Manning’s n values within the suggested range using a Monte Carlo simulation. In addition, the critical threshold value used for locating erosion potential sites was modified, and alternative model calculations were used to assess the potential for improving model accuracy. Finally, the model was run using data from multiple sites, including two study areas in Hawaii and two in Kansas. The outputs for each site were analyzed in an attempt to identify any trends caused by site characteristics. Results from this study showed that the nLS model was sensitive to all of the inputs. Modifying the Manning’s roughness coefficient significantly altered the final nLS values and shifted the critical threshold points, especially in areas of the upper watershed. Changes in the slope value modified the nLS model outputs in a predictable manner, but there was some variability, especially in areas with lower slope values. In addition, discrepancies in the DEM, which may be present due to measurement or processing error, were shown to significantly alter the flow paths of a watershed. These findings suggest that accurate roughness coefficients and LULC data are especially important for regions with a steeper topography, and accurate elevation data is important for regions with lower slope values. The results also suggest that the threshold value for the model plays a vital role in locating potential soil erosion sites, and adjustments to this value could possibly be used as a method for calibrating the nLS model. Finally, the alternative model calculations used in this study did not significantly improve the accuracy of the nLS model, so the existing model is sufficient for obtaining accurate nLS estimates. The information gained from this study can improve the assessment of soil erosion processes due to concentrated overland flow. By successfully implementing a land management program that makes use of the nLS models, it should be possible to improve BMP placement and design, helping to improve water and soil quality.

soil erosion

NPS pollution

computer model

GIS

Agriculture, Soil Science (0481)

Engineering, Environmental (0775)

Environmental Sciences (0768)

Grain sorghum in the hybrid-era, 1957-2008: yield with hybrid advancement and improved agronomic practices

Assefa, Yared

January 1900

Doctor of Philosophy / Department of Agronomy / Scott A. Staggenborg / Grain sorghum yield has notably increased from the beginning of hybrid production and commercialization in the late 1950s. The yield increases were the result of improved agronomic practices and hybrid advancement. The objectives of my research were: (1) to determine the magnitude of yield change in the hybrid era in irrigated and rain fed sorghum production, (2) to determine the contribution of agronomic and hybrid changes for yield in the hybrid era, (3) to investigate changes in sorghum morphology, physiology, and water use that contributed to yield increases, (4) to investigate changes that accompanied yield increase with hybrid improvement, and (5) to understand sorghum water and nutrient use and variations between hybrids in these regards. Fifty-two years of grain sorghum hybrid performance trial data (1957-2008), were analyzed and greenhouse and field studies were conducted on five selected hybrids to meet our objectives. The greenhouse and field studies were conducted from the summer of 2007 to the fall of 2009 on five selected hybrids, each representing a decade from the past fifty years. Results indicated that there was an increase in hybrid yield of nearly 50 kg ha-1 yr-1 in dryland sites over the 52 yrs (1957-2008) analyzed. Irrigated grain sorghum yields, however, remained unchanged over the same period. Agronomic practices such as planting date, phosphorus fertilizer use, and planting density changed over these years but were not found to contribute to increased dryland sorghum yields. There was no difference found between old and new hybrids tolerance to different densities. Hybrid advancement and increased nitrogen fertilizer application were responsible for changes in dryland yields. Total water use changed with hybrid advancement. New hybrids used the greatest total water and also had greater root-to-total biomass ratio than the old hybrids. Leaf biomass was also greater for the newest hybrid. There was a difference in amount of total nutrients extracted by hybrids, and there were differences among hybrids in allocation of nutrients to different tissues. In general the yield focus of sorghum hybrid development was effective in dryland sorghum production, likely because of intentional or inadvertent selection of hybrids with better drought tolerance. Results indicated that breeding programs created hybrids with improved morphological characteristics that might have resulted in better resource use (water and nutrient) and ultimately increased yield.

Sorghum

Hybrid advancement

Water use

Morphology

Physiology

Agriculture, Agronomy (0285)

Agriculture, Soil Science (0481)

Biology, Plant Physiology (0817)

Genesis, mineralogy, and micromorphology of vertic soils in southeastern Kansas

Hartley, Paul Evan

January 1900

Master of Science / Department of Agronomy / Michel D. Ransom / Many soils in southeastern Kansas are characterized by high clay contents and high shrink-swell potentials. Their vertic properties and claypan characteristics cause soil management to be difficult and pose problems for agricultural, environmental, and engineering uses. Thus, collecting more information and improving our understanding of these soils is an important step towards bettering our soil management techniques. The objectives of this study were to examine the morphology, processes of soil genesis, clay mineralogy, micromorphology, and potassium fixation potential of the soils of interest and how these characteristics varied between and within individual pedons. Ten pedons expected to represent varying degrees of vertic expression were selected. Methods included the use of field descriptions, routine soil laboratory characterization, micromorphological investigations, the determination of clay mineralogy by X-ray diffraction, and the measurement of potassium fixation potential. Field morphology reflected the geologic parent materials available in the region. The fine sediments that compose these clayey soils are primarily provided by the Pennsylvanian and Permian shales and limestones underlying this region and the Flint Hills to the west. Dominant pedogenic processes currently at work are clay illuviation and shrink-swell processes. Silty, non-expansive surface soils at all but sites 6 and 7 are thought to buffer the rapid wetting and drying cycles needed for maximum vertic expression. Four of the soils were dominated by smectitic minerals in the clay fraction while the rest exhibited a more mixed mineralogy. Disruption of illuvial clay features by shrink-swell movement was evident in thin section. Striated b-fabrics dominated the micromorphology except in non-expansive surface soils. K fixation of the soil surface was found to be negative in all soils, thus K fixation potential is considered very low. In subsurface horizons, K fixation generally increased with increasing vermiculite content. In addition to limited quantities of K-fixing clay minerals, naturally high K levels limited the amount of K fixation in this study. The information presented can be used to improve our understanding and management of high clay, vertic and claypan soils in southeastern Kansas.

Vertic soils

Claypan soils

Soil genesis

Clay mineralogy

Soil micromorphology

Potassium fixation

Agriculture, Agronomy (0285)

Agriculture, Soil Science (0481)

Ecological genomics of nematode responses to different bacterial environments

Coolon, Joseph

January 1900

Doctor of Philosophy / Department of Biology / Michael A. Herman / Determining the genetic mechanisms involved in organismal response to environmental change is essential for understanding the effects of anthropogenic disturbance. The composition of the bacterial-feeding nematode community is an excellent biological indicator of disturbance, particularly in grassland ecosystems. We have previously shown that grassland soil nematodes are responsive to perturbations in the field including the addition of nitrogen fertilizer. We are interested in how this perturbation affects the microbial community and downstream effects on the next trophic level, the bacterial-feeding nematodes. To determine the effects of disturbance on soil bacterial communities we used massively parallel sequencing and found that chronic nitrogen addition on tallgrass prairie significantly impacts overall bacterial community diversity and the abundance of specific bacterial taxa. Because native soil nematodes lack well developed genomic tools, we employed Caenorhabditis elegans as a model for native soil nematode taxa and used transcriptional profiling to identify 204 candidate genes regulated in response to altered bacterial diets isolated from grassland soils. To biologically validate our results we used mutations that inactivate 21 of the identified genes and showed that most contribute to fitness or lifespan in a given bacterial environment. Although these bacteria may not be natural C. elegans food sources, this study aimed to show how changes in food source, as can occur in environmental disturbance, has large effects on gene expression and those genes whose expression are affected, contribute to fitness. Furthermore, we identified new functions for genes of unknown function as well as previously well-characterized genes, demonstrating the utility of this approach to further describe C. elegans genome. We also investigated the function of previously well-characterized C. elegans defense pathways in our grassland soil bacterial environments and found that some are environment specific. Additionally, we found that cuticular collagen genes are important for lifespan, and appear to function downstream of known defense pathways. Overall, our results suggest that anthropogenic disturbance in grasslands alters the most basal components of the soil food web, bacteria and bacterial-feeding nematodes through the genes they possess and how they are expressed, and resultant bottom-up effects could have profound consequences on ecosystem health and function.

Ecological genomics

Innate immunity

Caenorhabditis elegans

Soil bacteria

Agriculture, Soil Science (0481)

Biology, Ecology (0329)

Biology, Genetics (0369)

Nutrient cycling at cattle feedlots field & laboratory study

Vaillant, Grace C.

January 1900

Master of Science / Department of Agronomy / Gary M. Pierzynski / Soil chemical and physical properties beneath cattle feedlot pens are largely unstudied. This project was conducted to survey select soil chemical and physical properties of soil beneath active open air cattle feedlots. At four cattle feedlots in Kansas, the concentrations of NH4-N, organic-N, organic-C, Cl-, and P were high at the surface and rapidly decreased within 1.00 m. At three of the four feedlots, NO3-N was generally below background concentration (4.1 mg kg-1) while one feedlot had a >75 mg kg-1 increase in the top 1.00 m. Based on feeding data, only a small percent (7.9 to 1.2) of the total N deposited on the surface was found in the top 1.00 m below the pen surface for a range of 25 to 60 years of operation. While in use, these feedlots do not appear to have a high potential for groundwater pollution from NO3-N leaching. However, if they were to become inactive they may pose a severe threat to groundwater quality from organic-N mineralization and NH4-N nitrification. If feedlots were closed and the land could be largely remediated by removing a layer of soil, these feedlots would have an average 48% profile N removed in a 0.25 m thick layer. A chamber, a modified vacuum desiccator, was tested for the investigation of NH3 volatilization from soil in the laboratory. Ammonia volatilization at the soil surface is dependent on air flow, soil and air temperatures, soil water content, pH, the concentrations of NH3 and NH4+ in the air and soil solution, and factors affecting soil temperature including humidity. This chamber was built to control and/or quantify as many of these variables as possible. A technique for quantifying and predicting NH3 volatilization is important because AFOs are one of the largest contributors of NH3 to the atmosphere, which can cause acid precipitation and particulate matter deposition downwind from the operation. The chambers created allowed for repeated measurements with little error and appear to be a feasible, inexpensive apparatus to investigate NH3 volatilization mechanisms. Using synthetic urine as an N source, NH3 volatilization was affected by initial soil moisture content and soil texture and may be affected by initial soil pH. This chamber has promise to provide excellent data to assist the efforts being made to understand and model NH3 volatilization from feedlot pens.

Cattle feedlots

Nutrient profiles below pens

Ammonia volatilization

Dynamic chamber

Agriculture, Agronomy (0285)

Agriculture, Soil Science (0481)

Calcined materials as components of soilless root media: phosphate sorption characteristics and effects on phosphate and water use in greenhouse production of Impatiens wallerana

Ogutu, Rose Atieno

January 1900

Doctor of Philosophy / Department of Horticulture, Forestry, and Recreation Resources / Kimberly A. Williams / The use of calcined clays contributes properties of nutrient and water retention to soilless root media, which varies greatly depending on the parent clay and calcining treatment. This research characterized phosphate (PO[subscript]4) sorption of various calcined clay products, including low volatile and regular volatile material (LVM and RVM) 2:1 Attasorb clays (Engelhard Corp.), 2:1 Terra Green LVM clays (Oil-Dri Co.), and Turface (Profile Products LLC) at various particle sizes; 1:1 kaolin clays (Thiele Kaolin Co.) in powder form, and diatomaceous earth (Diatomite, Eagle Picher Minerals, Inc.). Three of the calcined materials, Terra Green montmorillonite and Attasorb attapulgite (which had high PO[subscript]4-sorption based on isotherms), and diatomaceous earth (which had negligible PO[subscript]4-sorption) were evaluated as components of soilless root media in two separate greenhouse experiments. The effect of the calcined materials, rate of incorporation (0%, 5%, 10% and 20% by volume in a mix with peat and perlite), and PO[subscript]4-P application rate (0, 5, 15, 45 mg.L[superscript]-1 PO[subscript]4-P) on plant growth, effluent P content and water use were determined during production and post-production of Impatiens wallerana Hook f. 'Tempo Rose'. The calcined materials varied in their ability to adsorb PO[subscript]4-P and generally yielded L-type isotherms. Laboratory results indicated potential for substantive P retention by several of the calcined materials when used in container production. For most materials, PO[subscript]4-P sorption did not show pronounced pH dependence. During production and post-production, the test materials not only improved PO[subscript]4-P retention but also water retention and water use efficiency while still maintaining optimal physical properties at incorporation rates of 5 to 10%. Diatomaceous earth resulted in PO[subscript]4-P retention not significantly different from the calcined clays.

Calcined clays

Diatomaceous earth

impatiens wallerana

Soilless media

Peat based

Phosphate retention

Agriculture, Plant Culture (0479)

Agriculture, Soil Science (0481)

Nitrate-nitrogen sufficiency ranges in leaf petiole sap of pac choi grown with organic and conventional fertilizers

Elfar Altamimi, May

January 1900

Master of Science / Department of Horticulture, Forestry, and Recreation Resources / Rhonda R. Janke / Petiole sap nitrate-nitrogen (NO3-N) analysis with handheld meters is a valuable tool in applying in-season nitrogen (N) for many crops. Sufficiency levels have been determined for several leafy green crops, including lettuce (Lactuca sativa L.) and cabbage (Brassica oleracea L.), but not for pac choi (Brassica rapa L.). The response of pac choi to different fertilizer rates and sources [conventional and organic] has established optimal soluble N application rates and Cardy meter sufficiency ranges. Greenhouse experiments were conducted during summer and fall of 2008 in Manhattan, KS. Conventional soluble fertilizer was formulated from inorganic salts with a 4 NO3-N: 1 ammonium ratio. Phosphorus was held at 1.72mM and K at 0.83mM for all treatment levels. The organic soluble fertilizer, fish hydrolyzate (2N:1.72P:0.83K), was diluted to provide the same N levels as with conventional treatments. Both fertilizers were applied at rates of 0, 32, 75, 150, 225, 300, and 450 mg. L-1. Seedlings were transplanted and fertilizer application began at 18 days. Plants were harvested at seven weeks (five weeks post transplanting) after receiving 15 fertilizer applications during production. Samples of the most recently matured leaves were harvested weekly and analyzed for petiole sap NO3-N and leaf blade total N concentration. Leaf count, leaf length, and chlorophyll content were also measured weekly. Fresh and dry weights were determined on whole shoots and roots. Optimum yield was achieved at the 150 mg. L-1 fertility rate with both conventional and organic fertilizers. Field and high tunnel experiments were conducted during fall 2008 to validate the sufficiency ranges obtained from the greenhouse studies. Based on field and high tunnel results, sufficiency levels of NO3-N for pac choi petiole sap during weeks 2 to 3 of production were 800-1500 mg. L-1, and then dropped to 600-1000 mg. L-1 during weeks 4 through harvest for both conventional and organic fertilizers sources. These ranges could vary based on the variety of the crop, the fertility of soil, and certain environmental factors such as photoperiod, light intensity. However, we found that petiole sap nitrate always increased to the point associated with the maximum biomass, followed by a plateau where sap nitrate remained constant. This characteristic of the Cardy meter can provide the growers with a practical methodology to generate their standard curves under specific conditions to guide in-season N applications. Total N in leaf tissue showed fewer fertilizer rate effects than petiole sap NO3-N. Chlorophyll content was not useful in evaluating pac choi N status.

Pac choi

Nitrate nitrogen

Sufficiency ranges

Organic fertilizers

Conventional fertilizers

Brassica rapa

Agriculture, General (0473)

Agriculture, Soil Science (0481)

Anbau von Zwischenfrüchten: Auswertung der Versuchsanlagen 2013/14 in Sachsen: Entwicklung für den ländlichen Raum im Freistaat Sachsen 2007–2013, Begleitforschung zum Anbau von Zwischenfrüchten – Bericht 2013/14

Schmidt, Anja, Gläser, Heiko

06 May 2015

Der Anbau von Zwischenfrüchten leistet einen enormen Beitrag zur Erhaltung der Bodenfruchtbarkeit sowie zur Konservierung von Nährstoffen in der Zeit zwischen Ernte der Hauptfrucht und Aussaat der Folgekultur. Zwischenfrüchte sowohl in Reinsaat als auch im Gemenge wurden diesbezüglich auf Feldversuchsanlagen untersucht und ausgewertet. Im Vordergrund stand im Jahr 2013/14 der Einsatz von organischem und mineralischem Stickstoffdünger zur besseren Bestandsetablierung. Der Bericht dokumentiert die Ergebnisse. Zudem werden verschiedene Aussaattechniken ökonomisch bewertet und Anbauempfehlungen gegeben.

info:eu-repo/classification/ddc/631.5

ddc:631.5

Sachsen; Pflanzenanbau; Zwischenfrucht

agriculture, soil fertility, catch crop

Anbau von Zwischenfrüchten - Auswertung der Versuchsanlagen 2012/13 in Sachsen: Entwicklungsprogramm für den ländlichen Raum im Freistaat Sachsen 2007-2013: Begleitforschung zum Anbau von Zwischenfrüchten - Bericht 2012/13

Schmidt, Anja, Gläser, Heiko

08 June 2013

Mit dem Anbau von Zwischenfrüchten kann die Nitratbelastung des Grundwassers reduziert oder niedrig gehalten werden. Zwischenfrüchte verbessern und erhalten die Bodenfruchtbarkeit, erhöhen die biologische Bodenaktivität und bieten Schutz vor Erosion. Auf Feldversuchsanlagen wurden Biomasseertrag, Stickstoffaufnahme und Stickstoffdynamik im Boden verschiedener Zwischenfruchtvarianten untersucht und ausgewertet. Eine Beschreibung der einzelnen Pflanzenarten und Hinweise zur Bestandesführung soll helfen, mit einer geeigneten Zwischenfruchtmischung gute Bestände zu etablieren.

info:eu-repo/classification/ddc/630

ddc:630

Sachsen; Zwischenfrucht

agriculture, soil fertility, catch crop

Arsentransfer Boden-Pflanze : Untersuchungen zum Arsentransfer Boden - Pflanze auf Grünlandstandorten

Haßler, Sina, Klose, Ralf

08 November 2006

Untersuchungen zur Arsenbelastung von Grünland in Abhängigkeit der Arsenkonzentration in Böden. Darstellung der Einflussfaktoren und Handlungsempfehlungen zur Arsenreduzierung.

Landwirtschaft, Boden, Arsen

agriculture, soil, arsenic

info:eu-repo/classification/ddc/630

ddc:630

Grünland; Boden; Arsen; Pflanzen