Mediterranean Forest Monitoring Using Optical and Microwave Remote Sensing
A special issue of Remote Sensing (ISSN 2072-4292). This special issue belongs to the section "Forest Remote Sensing".
Deadline for manuscript submissions: closed (30 June 2021) | Viewed by 8815
Special Issue Editors
Interests: microwave remote sensing; soil moisture; vegetation biomass; snow water equivalent; SAR and microwave radiometers; GNSS-R, retrieval algorithms development; machine learning
Special Issues, Collections and Topics in MDPI journals
Interests: microwave remote sensing; soil moisture; vegetation biomass; snow water equivalent; SAR; microwave radiometry
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
Forests and woodlands are the most widely distributed vegetation ecosystems on the planet, covering approximately 4000 million ha. The importance of forest monitoring is universally recognized, due to the role played by forests in provisioning a large number of different services and in acting as the main terrestrial carbon sink. In this respect, the possibility to estimate forest parameters from active and passive remote sensing observations is undoubtedly appealing.
Passive visible/infrared sensors have been widely used for this scope, although these sensors can only detect the upper layer of the canopy, and they can only operate in clear-sky conditions.
Active optical sensors (LiDAR, light detection, and ranging) have been employed for the mapping of forest variables, including the tree heights. However, the only satellite operating with onboard a LiDAR system was the laser altimeter ICESat, which has been recently replaced by ICESat-2, launched in 2018.
Active and passive microwave instruments are suitable tools for forest investigations: in particular, the SAR capabilities in mapping the forest biomass have been largely demonstrated. The P band SAR of the European Space Agency BIOMASS mission, which will be launched in 2021, is expected to provide accurate estimates of the forest biomass, by overcoming the signal saturation for high biomass values that has been observed at L band and higher frequencies.
Both SMAP and SMOS L-band radiometers provide, as an output product, vegetation optical depth (VOD). Although it is not a direct measure of AGB, VOD is related to the forest biomass, and it is the only parameter available on a global scale with daily revisiting.
A very promising sensitivity to forest biomass was exhibited by GNSS reflectometry, a new technique that makes use of the so called “signals of opportunity” available through the global navigation satellite systems.
This Special Issue aims at providing an overview of microwave sensor capabilities, with the support of optical/infrared sensors, in estimating the main forest parameters and especially the above-ground biomass (AGB). Mediterranean forests will be focused on especially, which represent a very complex environment for addressing the problem, as they are characterized by high spatial fragmentation, heterogeneity, and discontinuity in canopies that significantly affect retrieval.
Dr. Emanuele Santi
Dr. Simonetta Paloscia
Guest Editors
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Keywords
- SAR
- Microwave radiometers
- GNSS reflectometry
- LiDAR
- Hydrological cycle
- Above-ground biomass
- Mediterranean forests.
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