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Field
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relationships with soil microclimate, plant community, and carbon flux, and by mapping how these effects decay with distance from the nest. Objective 2: Test whether nest footprint varies systematically with
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resources for the mitigation of land degradation. Methodology The project will encompass two principle tasks: (1) Landscape-farm scale survey to examine how different land management scenarios impact soil
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unknown, and there is an urgent need for quantitative data to inform management and policy. Research methodology This project will examine the effects of Crassula on wetland invertebrates using both
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functional synergies, you will design and test multi-strain microbial communities (SynComs) with consistent, predictable benefits for plants growing in complex soil environments. Aims and Objectives
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, and control tissues across phylogenetically diverse Corydoradinae species. Test evolutionary mechanisms by quantifying the roles of gene duplication (including whole-genome duplication), positive
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rapidly enough. There is an urgent need to develop new tools, understand how to optimally deploy both novel and existing tools, and understand the health system implications of each approach. Novel testing
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opportunity to contribute to the development of next-generation construction materials that are both low-carbon and climate-resilient. The research will focus on designing and testing functional materials
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- inductively coupled plasma-mass spectrometry (SC-ICP-MS) will be used to track biouptake as affected by temperature. Proteomic analysis will be used examine mechanisms of NPP toxicity towards phytoplankton
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infection dynamics and collect samples for analysis. Restoration trials will be designed to test seed treatments and planting strategies under controlled and semi-natural conditions. The project will be based
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electronics. Following rigorous laboratory validation, field testing will occur in Plymouth Sound to capture real-time ionic fluctuations over multiple tidal cycles. Training Comprehensive training will cover