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Predicting Tree Species Diversity Using Geodiversity and Sentinel-2 Multi-Seasonal Spectral Information

Author

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  • Irene Chrysafis

    (Forest Remote Sensing and Geospatial Analysis Laboratory, Department of Forestry and Management of the Environment and Natural Resources, Democritus University of Thrace, GR 68200 Orestiada, Greece)

  • Georgios Korakis

    (Laboratory of Forest Botany, Department of Forestry and Management of the Environment and Natural Resources, Democritus University of Thrace, GR 68200 Orestiada, Greece)

  • Apostolos P. Kyriazopoulos

    (Laboratory of Range Science, Department of Forestry and Management of the Environment and Natural Resources, Democritus University of Thrace, GR 68200 Orestiada, Greece)

  • Giorgos Mallinis

    (Forest Remote Sensing and Geospatial Analysis Laboratory, Department of Forestry and Management of the Environment and Natural Resources, Democritus University of Thrace, GR 68200 Orestiada, Greece
    Laboratory of Photogrammetry and Remote Sensing Unit (PERS Lab), School of Rural and Surveying Engineering, The Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece)

Abstract

Measuring and monitoring tree diversity is a prerequisite for altering biodiversity loss and the sustainable management of forest ecosystems. High temporal satellite remote sensing, recording difference in species phenology, can facilitate the extraction of timely, standardized and reliable information on tree diversity, complementing or replacing traditional field measurements. In this study, we used multispectral and multi-seasonal remotely sensed data from the Sentinel-2 satellite sensor along with geodiversity data for estimating local tree diversity in a Mediterranean forest area. One hundred plots were selected for in situ inventory of tree species and measurement of tree diversity using the Simpson’s ( D 1 ) and Shannon ( H′ ) diversity indices. Four Sentinel-2 scenes and geodiversity variables, including elevation, aspect, moisture, and basement rock type, were exploited through a random forest regression algorithm for predicting the two diversity indices. The multi-seasonal models presented the highest accuracy for both indices with an R 2 up to 0.37. In regard to the single season, spectral-only models, mid-summer and mid-autumn model also demonstrated satisfactory accuracy (max R 2 = 0.28). On the other hand, the accuracy of the spectral-only early-spring and early-autumn models was significant lower (max R 2 = 0.16), although it was improved with the use of geodiversity information (max R 2 = 0.25).

Suggested Citation

  • Irene Chrysafis & Georgios Korakis & Apostolos P. Kyriazopoulos & Giorgos Mallinis, 2020. "Predicting Tree Species Diversity Using Geodiversity and Sentinel-2 Multi-Seasonal Spectral Information," Sustainability, MDPI, vol. 12(21), pages 1-14, November.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:21:p:9250-:d:441270
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    References listed on IDEAS

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