1. Monitoring spring phenology in Mediterranean beech populations through in situ observation and Synthetic Aperture Radar methods
- Author
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Cristiano Castaldi, Vittorio Garfì, Manuela Plutino, Marco Marchetti, Serena Antonucci, Roberta Proietti, Maria Cristina Monteverdi, Marco Di Carlo, Giovanni Santopuoli, Ugo Chiavetta, and Andrea Germani
- Subjects
Synthetic aperture radar ,Mediterranean climate ,010504 meteorology & atmospheric sciences ,Fagus sylvatica ,0208 environmental biotechnology ,Soil Science ,Climate change ,Growing season ,02 engineering and technology ,01 natural sciences ,law.invention ,law ,Computers in Earth Sciences ,Radar ,Beech ,0105 earth and related environmental sciences ,Remote sensing ,BBCH ,biology ,Phenology ,Geology ,biology.organism_classification ,020801 environmental engineering ,Climatology ,Leaf phenology ,Environmental science ,Sentinel-1 ,SAR - Abstract
The interest in tree phenology monitoring is increasing because this trait is a robust indicator of the impacts of climate change on natural and managed ecosystems. Different approaches to monitor phenology at different spatial scales, from in situ monitoring to remote sensing, are used to investigate spring and/or autumn phenological changes. In Mediterranean area, most of phenological changes occur during cloudy periods (spring and autumn), leading to a loss of information also for very high temporal resolution satellites. Instead, cloud-uninfluenced sensors, such as radar sensors, can allow to bypass this problem and produce a temporally continuous coverage. In this paper, we analyzed the spring phenology of two European beech (Fagus sylvatica L.) populations, located at different latitudes in Mediterranean area. Weekly in situ monitoring of leaf-out has been correlated with data collected by Synthetic Aperture Radar. Spring phenological phases were monitored in situ following a modified BBCH-code with a 5-scores scale (from 1 - buds closed and covered by scales, to 5 - leaf completely unfolded). The score 3 (young leaves starting to emerge from the bud) was considered the bud break. Different site conditions based on aspect (northern and southern) and altitudinal gradient (high and low altitude) have been considered. The aim was to test and implement a new methodology able to decrease the frequency of the field sampling, using remote data, to extend more detailed information on geographical scale, and to reconstruct past phenology. Results showed a statistically significant different length of the vegetative spring period, spanning from dormant buds, up to leaves completely unfolded, between sites. Through Synthetic Aperture Radar estimation, this study demonstrates that leaf-out can be monitored with an extreme accuracy. The phenophase score 4 and 5 estimation showed the best performance (RMSE This radar approach fixes the cloud problem typical of multispectral approach and very frequent in phenophase change periods in Mediterranean climate. This study promotes the proposed remote sensing approach as a very useful tool to monitor growing season starting in remote areas, helping to reduce in situ observations and allowing past phenology reconstruction.
- Published
- 2020