855 research outputs found

    Potato Leafhopper-Resistant Alfalfa: Yield Advantages and New Pest Management Guidelines

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    In 1997 several companies released new potato leafhopper-resistant alfalfa varieties. These products are not genetically engineered, like Bt com, but have had leafhopper resistance bred into them using classical plant breeding techniques. Our research is focusing on the yield advantages of these products, the mechanism(s) of resistance and its effect on the pest and natural enemy community, and the potential changes in insect pest management that will accompany their use

    Defining wireworm risk with GIS

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    Research at Iowa State University recently helped develop an early warning system for Iowa fields at risk from wireworms, by using geographic information system (GIS) technology. This information should help producers returning Conservation Reserve Program (CRP) land to corn production locate their high-risk fields. They can then follow recommended scouting procedures and avoid significant amounts of unnecessary insecticide applications in fields where wireworms are not detected

    Potato leafhopper management in alfalfa

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    Potato leafhoppers have made their annual migration from the southern United States back to the alfalfa fields of Iowa. Small populations are being reported from across the state. During the last couple of years, producers have been planting potato-leafhopper-tolerant alfalfa to help prevent yield loss from this insect. Leafhopper-tolerant alfalfa looks, grows, and feeds similar to traditional leafhopper-susceptible alfalfa. It is different from susceptible alfalfa because the symptoms of feeding are much less severe

    What Are the Predictors of System-Wide Trust Loss in Transportation Automation?

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    Prior research has examined how individuals place trust in single (e.g., Meyer, 2001, 2004) and multiple (e.g., Geels-Blair, Rice, & Schwark, 2013) automated devices when one fails. This has shown that participants are influenced by system-wide trust (SWT). What has been missing is an investigation into what types of people succumb to SWT effects. The current study attempts to replicate SWT findings and identify possible predictors of individuals likely to be influenced by SWT. The findings did demonstrate a replication of SWT. The study found that ‘‘feelings of negativity when automated devices fail’’ was a significant predictor of SWT theory

    Influence of wet distillers grains diets on beef cattle fecal bacterial community structure

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    <p>Abstract</p> <p>Background</p> <p>The high demand for ethanol in the U.S. has generated large stocks of wet distillers grains (DG), a byproduct from the manufacture of ethanol from corn and sorghum grains. Little is known, however, about the potential influence of dietary DG on fecal microbial community structure. A better understanding of the microbial population in beef cattle feces could be an important monitoring tool to facilitate goals of improving nutrient management, increasing animal growth performance and decreasing odors and/or shedding of pathogens. Five diets consisting of a traditional diet fed to finishing beef cattle in the Southern High Plains of Texas-CON (steam-flaked corn control with 0% DG), and four concentrations of DG in the dietary dry matter; 10 C (10% corn-based DG), 5S (5% sorghum-based DG), 10S (10% sorghum DG), and 15S (15% sorghum DG) were fed to steers at the Texas Tech University Burnett Animal Center. Diets were essentially isonitrogenous with a formulated crude protein value of 13.5%.</p> <p>Results</p> <p>Fecal grab samples were obtained from 20 steers (n = 4 per diet) and the barcoded DNA pyrosequencing method was used to generate 127,530 16S operational taxonomic units (OTUs). A total of 24 phyla were observed, distributed amongst all beef cattle on all diets, revealing considerable animal to animal variation, however only six phyla (core set) were observed in all animals regardless of dietary treatment. The average abundance and range of abundance, respectively of the core phyla were as follows: Firmicutes (61%, 19 to 83%), Bacteroidetes (28%, 11 to 63%), Proteobacteria (3%, 0.34 to 17.5%), Tenericutes (0.15%, 0.0 to 0.35%), Nitrospirae (0.11%, 0.03 to 0.22%), and Fusobacteria (0.086%, 0.017 to 0.38%). Feeding DG-based diets resulted in significant shifts in the fecal microbial community structure compared with the traditional CON. Four low abundance phyla significantly responded to dietary treatments: Synergistetes (<it>p </it>= 0.01), WS3 (<it>p </it>= 0.054), Actinobacteria (<it>p </it>= 0.06), and Spirochaetes (<it>p </it>= 0.06).</p> <p>Conclusions</p> <p>This is, to our knowledge, the first study using this method to survey the fecal microbiome of beef cattle fed various concentrations of wet DG. Comparison of our results with other cattle DNA sequencing studies of beef and dairy cattle feces from a variety of geographical locations and different management practices identifies a core set of three phyla shared across all cattle. These three phyla, in order of relative abundance are; Firmicutes, Bacteroidetes, and Proteobacteria. The presence of large animal-to-animal variation in cattle microbiome was noted in our study as well as by others.</p

    Wireworms in Conservation Reserve: An Evaluation of Risk Using GIS Technology and Discovering Effective Sampling Techniques

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    The mission of the Conservation Reserve Program (CRP), introduced in 1985, is to reduce soil erosion and increase wildlife habitat by planting native cool-season grasses on highly erodible land. After 10 years of fallow conditions, farmers can expect any number of problems when returning this land to crop production. One probable result will be the occurrence of soil-insect pests, primarily wireworms (Coleoptera: Elateridae )

    Compositional Changes in Two Small Mammal Communities During Succession in Southeastern Virginia

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    Changes in the composition of two small mammal communities were studied during 8 and 9 years of ecological succession in southern Chesapeake. Virginia. Using monthly live-trapping on grids of similar size and history since their abandonment as agricultural fields, we learned that house mice were early colonists on one grid but not the other. Two species of herbivorous rodent and the granivorous eastern harvest mouse were numerically dominant on both grids across the study. Some species disappeared early on one grid but persisted to the end at the other. The two arboreal small mammals, golden and white-footed mice, were most predictable between sites, showing up at year 8, after significant woody elements were present on the grids. The greatest abundances of small mammals (and probably greatest total biomass too) were seen between years 4 and 6 of ecological succession

    Abnormalities of cell packing density and dendritic complexity in the MeCP2 A140V mouse model of Rett syndrome/X-linked mental retardation

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    <p>Abstract</p> <p>Background</p> <p>Rett syndrome (RTT), a common cause of mental retardation in girls, is associated with mutations in the <it>MECP2 </it>gene. Most human cases of <it>MECP2 </it>mutation in girls result in classical or variant forms of RTT. When these same mutations occur in males, they often present as severe neonatal encephalopathy. However, some <it>MECP2 </it>mutations can also lead to diseases characterized as mental retardation syndromes, particularly in boys. One of these mutations, A140V, is a common, recurring missense mutation accounting for about 0.6% of all MeCP2 mutations and ranking 21<sup>st </sup>by frequency. It has been described in familial X-linked mental retardation (XLMR), PPM- X syndrome (Parkinsonism, Pyramidal signs, Macroorchidism, X-linked mental retardation) and in other neuropsychiatric syndromes. Interestingly, this mutation has been reported to preserve the methyl-CpG binding function of the MeCP2 protein while compromising its ability to bind to the mental retardation associated protein ATRX.</p> <p>Results</p> <p>We report the construction and initial characterization of a mouse model expressing the A140V MeCP2 mutation. These initial descriptive studies in male hemizygous mice have revealed brain abnormalities seen in both RTT and mental retardation. The abnormalities found include increases in cell packing density in the brain and a significant reduction in the complexity of neuronal dendritic branching. In contrast to some MeCP2 mutation mouse models, the A140V mouse has an apparently normal lifespan and normal weight gain patterns with no obvious seizures, tremors, breathing difficulties or kyphosis.</p> <p>Conclusion</p> <p>We have identified various neurological abnormalities in this mouse model of Rett syndrome/X-linked mental retardation which may help to elucidate the manner in which <it>MECP2 </it>mutations cause neuronal changes resulting in mental retardation without the confounding effects of seizures, chronic hypoventilation, or other Rett syndrome associated symptoms.</p
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