IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing (Jan 2024)

Analysis of C-Band Radar Temporal Coherence Over an Irrigated Olive Orchard in a Semi-Arid Region

  • Adnane Chakir,
  • Pierre-Louis Frison,
  • Ludovic Villard,
  • Nadia Ouaadi,
  • Pascal Fanise,
  • Khabba Said,
  • Valerie Le Dantec,
  • Rafi Zoubair,
  • Jamal Ezzahar,
  • Benedicte Fruneau,
  • Jean-Paul Rudant,
  • Jarlan Lionel

DOI
https://doi.org/10.1109/JSTARS.2024.3352699
Journal volume & issue
Vol. 17
pp. 3635 – 3647

Abstract

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This article aimed to monitor vegetation using C-band radar data at a subdaily time step. To this end, radar measurements using tower-mounted antennas with a 15-min time step, along with physiology-related information (sapflow and micrometric dendrometry), were acquired quasi-continuously from March 2020 to December 2021 in an olive orchard located near Marrakech, Morocco. The article focused on temporal coherence, whose clear diurnal cycle (highest at night and lowest at the end of the afternoon) had been highlighted over tropical and boreal forests in previous studies. The results showed that coherence was highly sensitive to: wind-induced movement of scatterers, since coherence was lowest when wind speed was highest in late afternoon, and vegetation activity, especially its water dynamics, since the morning coherence drop coincided with the onset of sapflow and the daily evapotranspiration cycle, as well as the good agreement between the temporal drop rate of coherence and the daily residual variation in trunk circumference (i.e., deviation from long-term trend). Finally, coherence remained high for temporal baselines of several days, showing that sentinel-1 data (when both satellites are operational) may be well suited for such studies, especially with acquisitions made during morning passes, when wind speed is low. These results open perspectives for monitoring tree crop physiology using high-revisit-time radar observations.

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