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Temperature Is Likely an Important Omission in Interpreting Vegetation Optical Depth

Meng Zhao, Vincent Humphrey, Andrew F. Feldman, Alexandra G. Konings

2024Geophysical Research Letters12 citationsDOIOpen Access PDF

Abstract

Abstract Vegetation optical depth (VOD) satellite microwave retrievals provide significant insights into vegetation water content and responses to hydroclimatic changes. While VOD variations are commonly linked to dry biomass and live fuel moisture content ( LFMC ), the impact of canopy temperature ( T c ) remains overlooked in large‐scale studies. Here, we investigated the impact of T c on L‐band (1.4 GHz) and X‐band (10.7 GHz) VOD at diurnal and seasonal timescales. Synthetic benchmark VOD was created using realistic fields of T c , LFMC , and biomass in an electromagnetic model. Perturbation experiments revealed that T c strongly affects diurnal VOD variations at both L‐band and X‐band. Seasonally, while biomass emerges as the largest contributor to VOD variations in 70% (at X‐band) and 90% (at L‐band) of our study region, T c and LFMC still play substantial roles. The findings stress the importance of refining retrieval algorithms to distinguish T c , LFMC , and biomass effects for future VOD applications in ecohydrology.

Topics & Concepts

CanopyEnvironmental scienceVegetation (pathology)Biomass (ecology)Water contentAtmospheric sciencesRemote sensingGeographyPhysicsOceanographyGeologyMedicinePathologyGeotechnical engineeringArchaeologySoil Moisture and Remote SensingCryospheric studies and observationsPrecipitation Measurement and Analysis
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