Summary
The impact of climate change is the largest in polar regions, due to multiple feedback loops leading to polar amplification. In Antarctica, short meteorological time series hamper our ability to evaluate the climate variability at interannual and decadal scale, and in particular the one linked with the anthropogenic climate change. It is also not clear though whether climate variability in polar region will increase, despite significant consequences on the global climate system. In this proposal, I will evaluate how climate variability in Antarctica varies for changing climatic conditions, using ice core isotopic composition (δ18O, d-excess and 17O-excess). The objectives of this project are to study the climate variability thanks to a large network of ice core records at high resolution and high precision. A large number of ice cores are available through large European projects (Beyond EPICA – Oldest Ice (BE-OI), EAIIST, …) but the analytical platform to measure all this ice at high precision is missing. By implementing the new generation of infrared spectrometer in an ice core measuring line, we will be able to increase both the throughput and precision, and measure triple isotopic composition on a large number of cores and resolve the climate variability in Antarctica.
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| Web resources: | https://cordis.europa.eu/project/id/101116660 |
| Start date: | 01-04-2024 |
| End date: | 31-03-2029 |
| Total budget - Public funding: | 1 976 593,00 Euro - 1 976 593,00 Euro |
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Original description
The impact of climate change is the largest in polar regions, due to multiple feedback loops leading to polar amplification. In Antarctica, short meteorological time series hamper our ability to evaluate the climate variability at interannual and decadal scale, and in particular the one linked with the anthropogenic climate change. It is also not clear though whether climate variability in polar region will increase, despite significant consequences on the global climate system. In this proposal, I will evaluate how climate variability in Antarctica varies for changing climatic conditions, using ice core isotopic composition (δ18O, d-excess and 17O-excess). The objectives of this project are to study the climate variability thanks to a large network of ice core records at high resolution and high precision. A large number of ice cores are available through large European projects (Beyond EPICA – Oldest Ice (BE-OI), EAIIST, …) but the analytical platform to measure all this ice at high precision is missing. By implementing the new generation of infrared spectrometer in an ice core measuring line, we will be able to increase both the throughput and precision, and measure triple isotopic composition on a large number of cores and resolve the climate variability in Antarctica.Status
SIGNEDCall topic
ERC-2023-STGUpdate Date
12-03-2024
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