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to open and maintain market access and improved quality of tropical fruit, vegetable and ornamental crops grown in the Pacific Basin. The long-term goals of our research program are to develop and
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flood-induced insect resistance in cereals such as maize, rice, sorghum, wheat, oats and rye. The candidate will perform greenhouse-based plant-insect bioassays on cereals involving flooding and
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flood-induced insect resistance in cereals such as maize, rice, sorghum, wheat, oats and rye. The candidate will perform greenhouse-based plant-insect bioassays on cereals involving flooding and
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species. The research also addresses basic questions, such as whether domestication has preferentially operated on genes that have unusually high amounts of standing variation within wild populations. Under
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-ARS Ornamental Research Program in Miami, FL. The fellow will participate in a team effort to maintain and characterize Ornamental Genetic Resources (OGRs) by discovering molecular resources using
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affect oyster phenotypes targeted for improvement. The fellow will also gain experience using advanced computational methods to develop tools that can accurately predict desirable phenotypes. With
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, and analysis of large, diverse datasets that benefit from high-performance computing (HPC) clusters. The objective of these fellowships is to facilitate cross-disciplinary, cross-location research
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developing stress resistance strategies through trait identification and stacking. Maintaining, evaluating, and utilizing grapevine germplasm. Growth and experimentation with grapevine. Use of high-performance
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/modifiers for asphalt binders and lubricants, research the separation process to produce high boiling FPO fraction, analyze their mechanical properties, and assess their performance evaluation. Resulting
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-automated processing pipeline capable of analyzing high-throughput plant phenotyping and soil-sensing data to extract key phenotypic traits. Advancing crop productivity within sustainable cropping systems