Quantitative Assessment of Satellite L-Band Vegetation Optical Depth in the US Corn Belt

Satellite L-band vegetation optical depth (L-VOD) contains new information about terrestrial ecosystems. However, it has not been evaluated against the geophysical variable that it represents, plant water, the mass of liquid water contained within vegetation tissue per ground area. We quantitatively assess the seasonal variation of three L-VOD products at the South Fork Core Validation Site in the Corn Belt state of Iowa where L-VOD is directly proportional to crop plant water. We use three satellite-scale crop plant water estimates: in situ measurements; a normalized difference water index (NDWI) calibrated with in situ measurements; and a crop model. We find that overall the L-VOD satellite products are 0.02-0.09 Np (0.4-1.7 kg . m(-2)) lower than the three estimates. We show that overestimation of L-VOD can be attributed to dynamic soil surface roughness, and hypothesize that crop plant water observations will require the incorporation of this effect into retrieval algorithms.

Automated summary

Satellite L-band vegetation optical depth (L-VOD) provides new information about terrestrial ecosystems. We quantitatively assessed three L-VOD products at a validation site in Iowa and found that the satellite products underestimated crop plant water, suggesting the need to consider the effect of dynamic soil surface roughness on crop plant water observations.