Can photosynthesis be measured over large areas? Scientists find a way "Plant photosynthesis is a fundamental process that drives all ecosystem functions. Despite established knowledge on how to measure and model photosynthesis on the leaf scale, measuring photosynthesis on the canopy scale has been challenging," says Jim Tang, associate scientist in the MBL Ecosystems Center. By analyzing the spectral signals captured by a special sensor they installed at Harvard Forest in Petersham, Mass., "We found fluorescence data well correlated with photosynthesis that was measured by another independent method. This is the first time that satellite-based fluorescence is validated by ground measurements," Tang says."This work has profound applications, as we can easily install this system into a drone, airplane, or satellite to detect plant photosynthesis on a large scale to assess ecosystem health," says lead author Xi Yang, a postdoctoral associate at Brown University. "We may also apply this to agriculture for predicting crop yield, drought condition, or insect outbreak."Chlorophyll fluorescence is a byproduct of photosynthesis: under the sunlight, a small portion of solar energy (< 1 percent) captured by chlorophyll is emitted as fluorescence. However, recording the signal from that fluorescence is extremely difficult because it is obscured by the much higher intensity of solar radiation. The group discovered a few wavelengths of light that allow measuring the specific fluorescence signal from photosynthesis. The team's fluorescence measurement system can record radiation at high resolution with a frequency of 5 minutes, thus automating detection of photosynthesis from the canopy.