Journal
FORESTS
Volume 12, Issue 6, Pages -Publisher
MDPI
DOI: 10.3390/f12060674
Keywords
Copernicus land monitoring service; hydromorphology; land-use; land-cover; riparian zones; connectivity
Categories
Funding
- Forest Research Center (CEF)
- Foundation for Science and Technology (FCT), Portugal [UIDB/00239/2020]
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The study found reduced forest connectivity in riparian forests located in the Mediterranean and Central Baltic hydroregions, except for Least Disturbed sites in the Central Baltic hydroregion. The ARZ layer exhibited overall suitability to assess connectivity in the Central Baltic hydroregion, while the Mediterranean hydroregion consistently displayed overestimation of connectivity at all levels of human disturbance. Improvements in spatial resolution and thematic accuracy of the Copernicus ARZ layer are recommended to address this issue.
The connectivity of riparian forests can be used as a proxy for the capacity of riparian zones to provide ecological functions, goods and services. In this study, we aim to test the potential of the freely available Copernicus Riparian Zones dataset to characterize the connectivity of riparian forests located in two European bioclimatic regions-the Mediterranean and the Central Baltic hydroregions-when subject to a gradient of human disturbance characterized by land-use/land-cover and hydromorphological pressures. We extracted riparian patches using the Copernicus Actual Riparian Zone (ARZ) layer and calculated connectivity using the Integral Index of Connectivity (IIC). We then compared the results with a Manual Riparian Zone (MRZ) layer, produced by manually digitizing riparian vegetation patches over a very high-resolution World Imagery layer. Our research evidenced reduced forest connectivity in both hydroregions, with the exception of Least Disturbed sites in the Central Baltic hydroregion. The ARZ layer exhibited overall suitability to assess the connectivity of riparian forests in the Central Baltic hydroregion, while the Mediterranean hydroregion displayed a consistent pattern of connectivity overestimation in all levels of human disturbance. To address this, we recommend some improvements in the spatial resolution and thematic accuracy of the Copernicus ARZ layer.
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