The EECLAT project aims to stimulate the French scientific community working with A-Train, ADM-Aeolus and Earth-CARE, with a special interest in active sensors. The EECLAT community develops and provides datasets and tools built around these concepts.
The annual EECLAT proposal aims at 1) gain support for the activities of several laboratories and groups working on atmospheric sciences through funding by CNES and INSU, and 2) provide a organised glimpse into the varied scientific interests of this community. We provide a space to foster community discussions on ongoing research projects and develop new ones.
The A-Train and EarthCare
The active sensors CALIOP (lidar) and CloudSAT (radar), in orbit since 2006 as part of the A-Train, have provided an unprecedented view of the atmosphere, documenting it along the vertical at a high spatial resolution (30m to 480m). The vertical dimension is a simple but key element to describe the stratified atmosphere, that was in the past only documented very indirectly and approximatively from space. It is, by itself, cutting edge information for atmospheric science studies.
As members of the A-Train, CALIPSO and CloudSat operate in concert with mature passive sensors such as CERES, PARASOL, MODIS that provide more information e.g. the radiative balance of the Earth, the amount and directionality of reflected light, and infrared emitted radiances. The A-train can document simultaneously the macrophysical, radiative, and to some extent microphysical properties of atmospheric particles (aerosols, clouds, polar stratospheric clouds). In synergy, A-train instruments can document atmospheric processes at regional and global scales.
The successful operation of these missions for over 10 years has led to large amounts of data, which permits to tackle seasonal and inter-annual variabilities key for climate studies.
- To acquire 20+ years of active remote sensing observations from space by merging the A-train and ADM and Earth-Care data. This will let us document the decadal evolution of clouds, aerosols, and PSC.
- To improve lidar and radar observation capabilities based on the advanced design of ATLID (High Spectral Resolution Lidar) and CPR (Doppler radar) that will provide new information on atmospheric particles.
Efforts of the international community have led to an impressive amount of scientific discoveries based on the analysis of A-train data. A-Train design and scientific exploitation are supported by NASA and US scientists. The French scientific community of remote sensing experts participates in this effort through the involvement of CNES in CALIPSO and PARASOL. They devise advanced analysis techniques of core A-Train measurements (CALIPSO and CloudSat, but also MODIS, CERES and PARASOL). Their expertise on measurement technologies allows them to lead the research of several well-identified scientific issues. Through the experience gained by this involvement the French community is able to contribute significantly to the preparation of the european Earth-Care mission.