In this article we are going to explore and analyze FLEX (satellite) from different perspectives and in different contexts. FLEX (satellite) is a topic that has captured the attention of people around the world, and its importance and impact are undeniable. Over the years, FLEX (satellite) has sparked heated debates, driven significant change, and been a source of inspiration to many. In this post, we will take a deep look at FLEX (satellite) to understand its meaning, relevance, and influence on our lives. From its origin to its evolution, FLEX (satellite) has left an indelible mark on society, and it is essential to understand its reach in order to appreciate its true value. The objective of this article is to offer a complete and insightful overview of FLEX (satellite), and thus contribute to the understanding and discussion of this topic.
Mission type | Earth observing satellite |
---|---|
Operator | ESA |
Mission duration | 3.5 years (planned) |
Spacecraft properties | |
Bus | Myriade |
Manufacturer | Thales Alenia Space |
Launch mass | 460 kilograms (1,010 lb) |
Power | 700W |
Start of mission | |
Launch date | Mid 2025 (planned) |
Rocket | Vega-C |
Launch site | Kourou ELV |
Contractor | Arianespace |
Orbital parameters | |
Reference system | Geocentric |
Regime | Sun-synchronous |
Altitude | 814 km |
Inclination | 98.64° |
Repeat interval | 27 days |
The FLuorescence EXplorer (FLEX) is a planned mission by the European Space Agency to launch a satellite to monitor the global steady-state chlorophyll fluorescence in terrestrial vegetation. FLEX was selected for funding on 19 November 2015 and will be launched on a Vega C rocket from Guiana Space Centre in mid-2025.
The FLuorescence EXplorer (FLEX) mission is the eighth mission in the Earth Explorer programme, (part of ESA's Living Planet Programme). It comprises a satellite for the global monitoring of steady-state chlorophyll fluorescence in terrestrial vegetation. Leaf photosynthesis releases energy not required in the biochemical process in the form of light in wavelength between 640 and 800 nanometres.
After more than 70 years of basic and applied research in chlorophyll fluorescence, it is now established that fluorescence is a sensitive indicator of photosynthesis in both healthy and physiologically perturbed vegetation that can be used to monitor croplands and forests.
Fluorescence is a powerful non-invasive tool to track the status, resilience, and recovery of photochemical processes, and provides important information on overall photosynthetic performance with implications for related carbon sequestration. The early responsiveness of fluorescence to atmospheric, soil and plant water balance, as well as to atmospheric chemistry and human intervention in land usage, makes it a useful biological indicator in improving the understanding of Earth system dynamics.
FLEX will encompass a three-instrument array for measurement of the interrelated features of fluorescence, hyperspectral reflectance, and canopy temperature.
The program will involve a space and ground-measurement program of 3-years duration and will provide data formats for research and applied science.