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About the Project Project details: The behaviour of animals determines their responses to environmental change and ultimately shapes whether populations persist or decline. Tools to record and
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challenged by environmental stressors including heatwaves, salinity shifts and declining water quality. Understanding how these animals respond to such pressures is critical for predicting future ecosystem
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Methods Wildlife populations have declined dramatically in the past century in response to anthropogenic environmental changes, but appropriate tools to study the magnitude and consequences
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spans animal evolutionary ecology, molecular ecology, and modelling of complex systems, and obtain interdisciplinary training in state-of-the-art approaches and techniques, which are highly south-after by
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aquatic wildlife communities when a river is restored with large wood, to provide evidence-based guidance to policymakers and practitioners. It will answer three critical questions: How does large wood
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therapeutic interventions. DA is a key neuromodulator, a chemical messenger that regulates and fine-tunes the activity of neurons, playing a vital role in numerous physiological processes such as reward
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constrained and valid action space, enabling the generation of reliable answers in a single, efficient inference step. Third, an efficient Data-Driven Low-Rank Adaptation scheme will be employed to efficiently
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the selfish X, likely through the action of toxin/antitoxin-like systems. This biology is found in flies and rodents, and likely exists in other taxa that are less easily studied. Population genetics research
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Action. Useful recruitment links: For information relating to the research project please contact the lead Supervisor via: k.moore@xeter.ac.uk
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wetlands. The candidate will analyse satellite observations of wildfires and attribute observed thermokarst changes to fire activity, examining the influence of burn frequency and severity on permafrost