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and methods in generation of functional genomic and population genetic data including whole genome sequencing, full-length transcriptomics, epigenetics, and genome structure. This research would include
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machine learning methods for disease quantification. Through the course of the project, they will gain in-depth knowledge of issues and the latest research at the junction of plant pathology and plant
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advanced methods to generate insight and reduce burden (Analytics and Artificial Intelligence). Creating trusted, ready-to-use data (Data Management). Equipping staff to work independently with data (Data
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collaborating with research scientists and technicians, the intern will also learn methods of experimental design, field trials, trait assessment, and data collection. Opportunities to analyze and summarize data
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-resistant weeds, supporting the development of sustainable agricultural practices. The successful candidate is expected to (1) help develop novel methods that incorporate advanced technologies for detecting
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microbiological, molecular biological, and chemical methods. This includes characterizing fungal populations and quantifying aflatoxin concentrations, which are critical components of plant pathology research
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USDA-ARS Postdoctoral Research Opportunity: Development of Novel Vaccines for Poultry Viral Diseases
molecular virology and virus recovery methods. Quantification of Virus Infectivity and Titer: The participant will be trained to accurately quantify virus infectivity and determine viral titers, developing
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experience in one or more of the following: Evidence of highly developed historical research and analysis skills Demonstrated exceptional writing ability (e.g., completed a PhD dissertation). Have a record of
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researchers in an effort to gain insight into novel methods used to predict toxicity of various chemicals and gain understanding how chemicals impact the ecosystem. Why should I apply? Under the guidance of a
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. The research will involve intelligent, robust, and adaptive control and actuation methods that will advise scaling and feasibility for implementation in airbreathing engine flow paths, lifting surfaces, and