Conservation Use and Quality of Life in a Rural Community: An Extension of Goldschmidt\u27s Findings

Agricultural conservation offers environmental benefits to farm families and others in the community as well as those living downstream. Studies of farmer conservation behavior have concluded that Best Management Practice adoption is not explained by innovation-diffusion, rational choice and farm structure models alone. As suggested by findings from the Sugar Creek Watershed, additional factors contribute to a land owner’s motivation for implementing conservation practices that go beyond economic or self-interested behavior; these motivations extend conservation behavior to social acts of stewardship where adoption takes place more often on medium-sized family farms. In this paper, Goldschmidt’s findings relating farm size and quality of life are tested in an exploratory analysis that evaluates conservation use as an indicator of quality of life. We perform this analysis by examining the relationships among the structural and social variables of farm size, enterprise type and intergenerational farm succession to ascertain their influence on land tenure. Conservation behavior and preferences for additional conservation practices, as elicited from participants through surveys, are added to the model to understand if and how they affect the discrimination of land tenure categories. Statistical analysis of these variables using analysis of variance (ANOVA) and discriminant analysis show the strength and, occasionally, directionality of these relationships, revealing a complex and interconnected reality that lends to a need for contextual explanation. Based on the conclusions of this paper, Buttel’s finding of a bimodal distribution of farm sizes, when viewed in terms of the benefits attributed to the medium-sized farms of Goldschmidt’s findings, reveal an area of concern when considering the future of conservation adoption

The Infrared Spectrum and the Structure of Gaseous Nitrous Acid

An investigation of the infrared spectrum of nitrous acid has shown that in the gaseous state this substance exists in two tautomeric species which are believed to be trans- and cis-forms. The cis-form is of higher energy by about 506 calories mole–1. A complete vibrational analysis is given and the OH in plane bending frequencies are found to be 1260 cm–1 and ~1292 cm–1, and the out of plane frequencies 543 cm–1 and 637 cm–1 for the trans- and cis-molecules, respectively. From the rotational constants the O[Single Bond]N[Single Bond]O angle is estimated to be 118° for the trans-form and 114° for the cis-form, from which conclusions are drawn regarding the electronic structure of the molecule. The standard entropy of nitrous acid at 25° is calculated

The new radiation-hard optical links for the ATLAS pixel detector

The ATLAS detector is currently being upgraded with a new layer of pixel based charged particle tracking and a new arrangement of the services for the pixel detector. These upgrades require the replacement of the opto-boards previously used by the pixel detector. In this report we give details on the design and production of the new opto-boards.Comment: Presentation at the DPF 2013 Meeting of the American Physical Society Division of Particles and Fields, Santa Cruz, California, August 13-17, 201

Rhabdomyolysis in an HIV cohort: epidemiology, causes and outcomes.

BackgroundThe Literature on rhabdomyolysis in the HIV-positive population is sparse and limited. We aimed to explore the incidence, patient characteristics, etiologies and outcomes of rhabdomyolysis in a cohort of HIV-positive patients identified through the Johns Hopkins HIV clinical registry between June 1992 and April 2014.MethodsA retrospective analysis of 362 HIV-positive patients with non-cardiac CK elevation ≥1000 IU/L was performed. Both inpatients and outpatients were included. Incidence rate and potential etiologies for rhabdomyolysis were ascertained. The development of acute kidney injury (AKI, defined as doubling of serum creatinine), need for dialysis, and death in the setting of rhabdomyolysis were determined. Logistic regression was used to evaluate the association of peak CK level with the development of AKI.ResultsThree hundred sixty two cases of rhabdomyolysis were identified in a cohort of 7079 patients with a 38,382 person years follow-up time. The incidence rate was nine cases per 1000 person-years (95% CI: 8.5-10.5). Infection was the most common etiology followed by compression injury and drug/alcohol use. One-third of cases had multiple potential etiologies. AKI developed in 46% of cases; 20% of which required dialysis. Thirteen percent died during follow-up. After adjustment, AKI was associated with higher CK (OR 2.05 for each 1-log increase in CK [95% CI: 1.40-2.99]), infection (OR 5.48 [95% CI 2.65-11.31]) and higher HIV viral load (OR 1.22 per 1-log increase [95% CI: 1.03-1.45]).ConclusionRhabdomyolysis in the HIV-positive population has many possible causes and is frequently multifactorial. HIV-positive individuals with rhabdomyolysis have a high risk of AKI and mortality

Implications of Climate Change for Agricultural Pest Management

Termination ReportThe University Archives has determined that this item is of continuing value to OSU's history.The thermal requirements of crops and insect pests differ significantly; their differential thermal requirements will govern how climate change impacts pest management needs and practices. To investigate the impact of climate change on pest management and the implications for farming communities, we have connected EPIC, a field-scale crop management model, with a temperature-driven model of insect population development (GILSM). EPIC was used to model the corn and soybean rotation common in the Midwest, and GILSM was programmed to model the growth of nine insect pests of corn and/or soybeans. Output from the model system was input to a geographic information system covering the eight-state corn-belt (Indiana, Illinois, Iowa, Kansas, Kentucky, Missouri, Nebraska and Ohio). The models were driven using GFDL-CM2 climate scenario data developed for the period 1901-2100 as part of NOA and IPCC investigations of global climate change. Over the past 100 years, crop productivity has increased several fold as a result of improved cultivation methods, fertilizers and pesticides, and plant breeding. In order to remove the confounding of changes in technology and possible climate change over the past century and unknown changes to come in the next century, a standard crop production protocol was used from 1901-2100. Using the crop production practices used most commonly in 2000 (the midpoint of the period), EPIC/GILSM was run for four 50 year periods (1901-1950, 1951-2000, 2001-2050 and 2051-2100) and the changes in crop yield and insect abundance were examined between periods. Nine insect pests found throughout the region were modeled to examine the range of likely responses of insect pests to climate change and the possible change in crop protection needs over the next 100 years. As expected, the model predicted little or no change between the first and second periods. For most species, change was maximum in the third period and less during the fourth period. In every case the isoclines for pest population density and crop productivity moved northwards, but at different rates, resulting in the isoclines for crop damage increasing as they moved northward. In two cases the pest abundance declined locally even as productivity increased, resulting in a net increase in productivity. No allowance was made for changes in agronomic practices or improvements in breeding pest resistance, both of which have helped to improve productivity over the past century.SEEDS-The OARDC Research Enhancement Competitive Grants Program: Interdisciplinary Team Research Competitio