A novel high-resolution eco-functional vegetation mapping of coastal dunes

A novel high-resolution eco-functional vegetation mapping of coastal dunes

Coastal dune landscapes are dynamic systems shaped by complex biotic-abiotic interactions and impacted by human disturbances. This study focuses on Mediterranean coastal dunes, analyzing spatial distribution and ecological characteristics of their plant communities through an innovative approach tha...

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Bibliographic Details
Main Authors: Michele Innangi, Mirko Di Febbraro, Marco Balsi, Ginevra Colonna, Michele Finizio, Federica Pontieri, Maria Laura Carranza
Format: Article
Language:English
Published: Elsevier 2025-02-01
Series:Ecological Indicators
Subjects:
Mediterranean dunes
Plant traits
UAVs
LTER
Machine learning
Online Access:http://www.sciencedirect.com/science/article/pii/S1470160X2500086X
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Summary:Coastal dune landscapes are dynamic systems shaped by complex biotic-abiotic interactions and impacted by human disturbances. This study focuses on Mediterranean coastal dunes, analyzing spatial distribution and ecological characteristics of their plant communities through an innovative approach that integrates vegetation functional traits with UAV-based remote sensing. Using synchronized vegetation sampling and UAV surveys along the central Adriatic coast, we identified and mapped distinct eco-functional types within the dune landscape. Field sampling recorded 46 taxa, reflecting diverse habitat types according to the EUNIS classification system. Clustering based on community traits revealed four eco-functional classes with notable differences in seed mass, taxonomic diversity, and species composition, as well as variations in remotely sensed environmental parameters. The first class, situated near the drift-line, included Thinopyrum junceum, a species adapted to wind and sand movement. The second class bridged dynamic foredune and more stable areas, featuring ruderal species like Scabiosa atropurpurea. The third class, impacted by moderate environmental stresses, included Silene colorata and Bromus madritensis, with a scattered, transitional distribution. Finally, the fourth class, characterized by dense, stable vegetation, was typified by Festuca fasciculata, indicating mature dune grasslands. Our findings underscore the potential of integrating UAV remote sensing with functional trait analysis to enhance vegetation classification accuracy and enable fine-scale spatial mapping of coastal dunes. This approach offers a valuable tool for ecosystem monitoring, supporting conservation management amid rising environmental pressures.
ISSN:1470-160X

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