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and local factors – in particular climate variability, grazing, fire, and invasive species – influence carbon dynamics in rangeland systems. The postdoctoral participant will have opportunities to do
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the molecular factors critical for resistance to Bacillus thuringiensis (Bt) toxins/crops. In both cases, an interest in the potential application of arthropod gene-drive systems and their application in
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. https://www.ars.usda.gov/pacific-west-area/wapato-wa/temperate-tree-fruit-and-vegetable-research/ Research Project: The selected participant will engage in cutting-edge research focusing on molecular
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pursuing a master's or doctoral degree in one of the relevant fields. Preferred skills: Specific skills in cell culture methods, use of animal research models, cellular or molecular biology, and ELISA
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chance to explore experimental approaches, adapt existing methodologies, and even develop new molecular and toxicological techniques tailored to the needs of the research project. Additionally, you will
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(Theobroma cacao) using a combination of molecular biology and emerging technologies. The core objectives remain centered on understanding cacao defense mechanisms and applying genetic and molecular tools
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chance to explore experimental approaches, adapt existing methodologies, and even develop new molecular and toxicological techniques tailored to the needs of the research project. Additionally, you will
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experience under the mentorship of PhD-level scientists in experimental design, application of various entomological and molecular research techniques, and data analysis. Opportunities for active participation
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Organization DEVCOM Army Research Laboratory Reference Code ARL-C-CISD-300154-SIS Description About the Research This research develops computational methods that enable robots to perceive and understand their environment; move, see, orient and collaborate in complex missions with limited human...
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dynamic modeling and simulation of small to mid-scale autonomous Unmanned Aerial Systems (UAS). The work typically involves implementation, validation, and application of first-principles methods for rotor