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Field
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and integration into the laboratory. Knowledge of ice dynamics models (knowledge of the GRISLI model is desirable) Good knowledge of the Linux/Unix work environment, good skill in Python, and in
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buildings by integrating energy efficiency, flexibility, on-site renewables, user empowerment, and interoperability with district heating and electricity grids. You will contribute to developing and
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the construction of the new 3D-ICE system, the fabrication of the cell niche, as well as conducting and supporting related experiments. This will include focusing on in vivo studies (design and execution) and
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Discovery Project (IODP) Expedition 389 : Hawaiian Drowned Reefs. Our team brings together expertise in: geochronology, sea-level reconstruction and ice-sheet dynamics geochemistry, paleoclimate and
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: geochronology, sea-level reconstruction and ice-sheet dynamics geochemistry, paleoclimate and paleoenvironmental reconstruction reef geology and ecosystem response The overarching project design reflects
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International Ocean Discovery Project (IODP) Expedition 389 : Hawaiian Drowned Reefs. Our team brings together expertise in: 1. geochronology, sea-level reconstruction and ice-sheet dynamics 2. geochemistry
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to explore it, and also, in some cases, to exploit it. At the same time, the Southern Ocean, which plays a key role in regulating our climate through ocean currents, sea ice, and its ability to absorb heat and
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by developing a vascularized cell niche using our innovative 3D-ICE technique and incorporating biochemical cues within a hydrogel system and such other tasks that are assigned to you. Core
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limited observational data. WaterColor seeks to fill these critical knowledge gaps through an integrated approach that combines field observations, satellite remote sensing, and advanced optical techniques
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by developing a vascularized cell niche using our innovative 3D-ICE technique and incorporating biochemical cues within a hydrogel system and such other tasks that are assigned to you. Core