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The effects of tillage and long-term irrigation on dynamic soil properties and genesis of Aridic Argiustolls in western KansasScarpace, Michelle Rose January 1900 (has links)
Master of Science / Department of Agronomy / Michel D. Ransom / Soil is a dynamic resource that can undergo many changes due to altering conditions (Tugel et al., 2005). With that, humans can have a great effect on the conditions of a landscape and contribute to soil change. As soils change, the function of soils can be altered which would affect the ability of soils to support ecosystem services. The objective of this thesis is to access how management affects dynamic and inherent soil properties in western Kansas soils. Eight sites in Sheridan County, KS mapped as Keith 1-3% slopes (fine-silty, mixed, superactive, mesic Aridic Argiustolls) were described and sampled. Of the eight sites, four are in ST (ST) management and four are in no-till (NT) management. All sites have been irrigated under center pivot irrigation systems since the 1970s. Soil samples of the A horizon were taken at each site to analyze total carbon, aggregate stability, bulk density, pH and microbial respiration to assess the impacts of tillage management on dynamic soil properties. Additionally, pedons were described from the ST sites in the irrigated areas as well as outside the pivot track to represent dryland conditions. Particle size data, field descriptions, and the micromorphology of thin sections were analyzed to determine if the classification of Keith soils are affected by irrigation. Significant differences between NT and ST management were seen in microbial respiration, select water stable aggregate sizes, and pH and bulk density at certain depths. It was also found that irrigation did not affect clay illuviation nor carbonate leaching. Overall, it was concluded that inherent soil properties such as soil map unit composition and parent material can have a greater impact on soil change and prevent the recognition of changes in soil properties over a human time scale.
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In situ determination of dynamic soil properties under an excited surface foundationAhn, Jaehun 15 May 2009 (has links)
The dynamic properties of soil are normally inferred from laboratory tests on
collected samples or from empirical relations. The soil properties measured in the field
can be very different from those predicted from laboratory tests. It is very difficult
to determine directly in the field the variation of the shear modulus and damping
with the level of excitation (level of strains). This remains today a major gap in our
knowledge and our ability to conduct reliable seismic analyses.
The main objective of this study is to assess the feasibility of determining reliably
in situ the shear modulus and damping of the soil as functions of the level of
strains, developing a method to compute these properties from the measured data
and providing practical recommendations for the use of the procedure. To achieve
this objective, extensive and comprehensive sets of experimental and analytical studies
were conducted in parallel. Some numerical analyses were performed to provide a
better understanding for performing in situ tests with the newly developed vibroseis
loading systems. In addition, the dynamic response of a surface foundation in vertical
vibration were studied. This dissertation mostly focuses on the numerical aspects of
the problem while some experimental data are also studied and utilized.
Field tests were conducted to estimate shear moduli of silty sands at two sites, the
Capital Aggregate Quarry and the Texas A&M University sites. Estimated nonlinear
shear moduli presented very consistent trends regardless of the analysis methods and test sites. They showed larger elastic threshold shear strains, 1.5 × 10−3 % for the
Capital Aggregate Quarry site and 2 × 10−3 % for the Texas A&M University site,
than the mean of shear modulus curve for cohesionless soils proposed by Seed and
Idriss (1970). Estimated moduli closely followed the mean of Seed and Idriss (1970)
at strains larger than 6 × 10−3 % for both sites. Internal damping ratio can also be
estimated if additional data are gathered from in situ tests in the future.
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Building a framework for predicting the settlements of shallow foundations on granular soils using dynamically measured soil propertiesKacar, Onur 27 June 2014 (has links)
In this dissertation, the framework is being developed for a new method to predict the settlements of shallow foundations on granular soil based on field seismic and laboratory dynamic tests. The new method combines small-strain seismic measurements in the field with nonlinear measurements in the field and/or in the laboratory. The small-strain shear modulus (Gmax ) of granular soil and the stress dependency of Gmax is determined from the shear wave velocity measurements in the field. Normalized shear modulus (G/Gmax ) versus log shear strain(log [gamma]) curves are determined from field or laboratory measurements or from empirical relationships. The G/Gmax -- log [gamma] curves and Gmax values are combined to determine the shear stress-shear strain response of granular soil starting from strains of 0.0001% up to 0.2-0.5%. The shear stress-shear strain responses at strains beyond 1.0-2.0 % are evaluated by adjusting the normalized shear modulus curves to larger-strain triaxial test data. A user defined soil model (MoDaMP) combines these relationships and incorporates the effect of increasing confining pressure during foundation loading. The MoDaMP is implemented in a finite element program, PLAXIS, via a subroutine. Measured settlements from load-settlement tests at three different sites where field seismic and laboratory dynamic measurements are available, are compared with the predicted settlements using MoDaMP. Predictions with MoDaMP are also compared with predictions with two commonly used methods based on Standard Penetration and Cone Penetration tests. The comparison of the predicted settlements with the measured settlements show that the new method developed in this research works well in working stress ranges. The capability of the new method has significant benefits in hard-to-sample soils such as in large-grained soils with cobbles and cemented soils where conventional penetration test methods fail to capture the behavior of the soil. The new method is an effective-stress analysis which has applicability to slower-draining soils such as plastic silts and clays. / text
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An Assessment Of The Dynamic Properties Of Adapazari Soils By Cyclic Direct Simple Shear TestsHassan Zehtab, Kaveh 01 July 2010 (has links) (PDF)
Among the hard-hit cities during 17 August 1999 Kocaeli Earthquake (Mw 7.4), Adapazari is known for the prominent role of site conditions in damage distribution. Since the strong ground motion during the event was recorded only on a rock site, it is necessary to estimate the response of alluvium basin before any study on the relationship between the damage and the parameters of ground motion. Therefore, a series of site and laboratory tests were done on Adapazari soils in order to decrease the uncertainty in estimation of their dynamic properties. In downtown Adapazari, a 118 m deep borehole was opened in the vicinity of heavily damaged buildings for sample recovery and in-situ testing. The stiffness of the soils in-situ is first investigated by standard penetration tests (SPT) and by velocity measurements with P-S suspension logging technique. Disturbed samples were recovered by core-barrel and split-barrel samplers. 18 Thin-Walled tubes were successively used for recovering undisturbed samples. A series of monotonic and cyclic direct simple shear tests were done on specimens recovered from the Thin-Walled tubes. It is concluded that the secant shear modulus and damping ratio of soils exposed to severe shaking during the 1999 event are significantly smaller than those estimated by using the empirical relationships in literature. It is also observed that the reversed-S shaped hysteresis loops are typical for cyclic response of the samples.
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