First Workshop on Water Vapor Isotopes
Presentations :
Topic 1 : Surface water vapor measurements & data distribution
Eric Kerstel: Water vapor isotope ratio measurements at low water concentration by means of optical feedback cavity enhanced spectroscopy
Doug Baer : Recent advances in instrumentation for continuous measurements of isotopic water vapor
Kate Dennis : Utilizing cavity ring-down spectroscopy for high -precision analysis of the triple oxygen isotopic composition of water and water vapor
Vladislav Bastrikov : Web database for publishing and sharing water vapor isotopes monitoring data
Topic 2 : Evaporation and oceanic moisture sources
Hans Christian Steen-Larsen : What controls the water vapor isotopic composition of the marine boundary layer ?
Harald Sodemann : To what extend do we understand the moisture source imprint conveyed by isotopic parameters?
Arny Sveinbjörnsdottier : Issues with isotope-enabled General Circulation Model’s ability to simulate observed water vapor isotopic composition in Iceland
Chun-Ta Lai : Influence of winter storms and Santa Ana winds on the isotopic composition of near-surface atmospheric moisture in San Diego, USA
Minghu Ding & Jingfeng Liu : Latitudinal variation of atmospheric water vapor isotopic composition along the Chinese-Antarctica transect (31N-69S) and its significance on the water cycle
Topic 3 : Atmospheric water vapor transport
Xuhui Lee : A large-eddy simulation study of water vapor isotopes in the atmospheric boundary layer
Marion Benetti : Stable isotopes of water vapor during the STRASSE cruise in the sub-tropical North Atlantic. Atmospheric boundary layer composition in relation to local evaporation.
Jean-Louis Bonne : Isotopic observations of water vapour and precipitation in Ivittuut, Southern Greenland
Martin Butzin & Martin Werner : Water vapour isotope monitoring at Kourovka Observatory (Western Siberia), a model-data comparison
Gabriel Bowen : Mapping atmospheric water transport with water and water vapor isotopes
Samuel Jonson Sutanto : Hydrologic processes governing the changes in isotopic composition of water vapor during ENSO events
Atsushi Okazaki : Interannual variability of δ18O of water vapor in West Africa and its relation to ENSO
Obbe Tuinen : Added value of using IASI q and δD data to constrain LMDZ processes during different MJO phases and different degrees of convection
Jesper Sjolte : Open questions about deuterium excess: the annual cycle in models and ice cores
Jing Gao : The controls of precipitation δ18O in the southern Tibetan Plateau
Jung-Eun Lee : Stable isotopes over East Asia: modeling and data
Topic 4 : Atmospheric water vapor isotopes and interactions with the biosphere
Max Berkelhammer : The nocturnal water cycle in an open-canopy forest elucidated through continuous measurements of the isotopic composition of water vapor
Christiane Werner : On-line water vapor and chamber based δ18O measurements to partition evapotranspiration and testing the Craig-Gordon equation in a semi-arid environment
Cynthia Gerlein : Isotopic equilibrium between precipitation and water vapor: evidence from continental rains in central Kenya
Topic 5 : Remote sensing of water vapor isotopes in the atmosphere
Matthias Schneider : Do we understand tropospheric δD remote sensing products? Examples for NDACC/FTIR and METOP/IASI
Cyrille Flamant : Can concentration profiles of water vapour isotopes be measured in the lower troposphere using a differential absorption lidar?
Vyacheslav Zakharov : Regarding retrieval of columnar δD and δ18O in the atmosphere from ground-based FTIR spectral measurements in near IR
Jean-Lionel Lacour : δD observations from IASI/MetOp: retrieval strategy, results across the globe and comparisons with other measurements/instruments
Topic 6 : Water vapor isotopes and clouds
Elisabeth Moyer : Water isotopic measurements for cloud microphysical studies
Peter Blossey : Clarifying the Amount Effect
Camille Risi : The added value of tropospheric water vapor isotopic measurements for process-oriented evaluation of convective and cloud processes in climate models
David Noone : Signatures of microphysics and transport processes from measurements of isotope ratios in clouds.
Topic 7 : New methods for comparing observations and simulations
Kei Yoshimura : Isotope data assimilations: Possibility and problems to be solved
Amaelle Landais : The added value of 17Oexcess measurements in understanding cloud processes
Martin Werner : Simulated present-day trends and variability of water vapour isotopes