2021
DOI: 10.5194/egusphere-egu21-10121
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Analysis of stable water isotopes in tropospheric moisture during the West African Monsoon

Abstract: <p>Three-dimensional distributions of atmospheric moisture with high spatial and temporal variability arise from the complex interaction of the various branches in the hydrological cycle. By studying abundances of stable water isotopes, one can retrieve fundamental information about the physical processes acting in these branches. Differences in the molecular structure lead to characteristic responses of each water isotope to phase change processes, which reflects on characteristic ratios of wate… Show more

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“…Because IASI is an infrared instrument, there are no retrievals for cloudy conditions, and there may thus be a concomitant dry bias in the data. Biases in isotopic measurements are challenging to quantify, but clear‐sky measurements made near regions of active, deep convection still show super‐Rayleigh conditions (Diekmann, 2021; Noone, 2012), suggesting that key in‐cloud processes can still influence the isotopic composition of the surrounding air. In IASI, the driest points are rejected (Figure 2b).…”
Section: Methods and Data Setsmentioning
confidence: 99%
“…Because IASI is an infrared instrument, there are no retrievals for cloudy conditions, and there may thus be a concomitant dry bias in the data. Biases in isotopic measurements are challenging to quantify, but clear‐sky measurements made near regions of active, deep convection still show super‐Rayleigh conditions (Diekmann, 2021; Noone, 2012), suggesting that key in‐cloud processes can still influence the isotopic composition of the surrounding air. In IASI, the driest points are rejected (Figure 2b).…”
Section: Methods and Data Setsmentioning
confidence: 99%