|
Traganos et al. 2022. Spatially Explicit Seagrass Extent Mapping Across the Entire Mediterranean
|
|
0
|
36
|
November 9, 2023
|
|
Vela et al. 2008. Use of SPOT 5 and IKONOS Imagery for Mapping Biocenoses in a Tunisian Coastal Lagoon (Mediterranean Sea)
|
|
0
|
75
|
August 14, 2023
|
|
Chowdhury et al. 2023. AI-driven remote sensing enhances Mediterranean seagrass monitoring and conservation to combat climate change and anthropogenic impacts
|
|
0
|
39
|
November 7, 2023
|
|
Swadling et al. 2023. Multi-Scale Assessments Reveal Changes in the Distribution of the Endangered Seagrass Posidonia Australis and the Role of Disturbances
|
|
0
|
32
|
November 7, 2023
|
|
Mancini et al. 2023. Colonization of Transplanted Posidonia Oceanica: Understanding the Spatial Dynamics through High-Spatial Resolution Underwater Photomosaics
|
|
0
|
76
|
April 19, 2023
|
|
Mancini et al. 2023. Detecting Trends in Seagrass Cover through Aerial Imagery Interpretation: Historical Dynamics of a Posidonia Oceanica Meadow Subjected to Anthropogenic Disturbance
|
|
0
|
331
|
April 11, 2023
|
|
Panayotidis 2022. Seagrass Meadows in the Greek Seas: Presence, Abundance and Spatial Distribution
|
|
0
|
118
|
July 19, 2022
|
|
Ventura et al. 2022. Seagrass restoration monitoring and shallow-water benthic habitat mapping through a photogrammetry-based protocol
|
|
0
|
177
|
January 2, 2022
|
|
West & Glasby. 2021. Interpreting Long-Term Patterns of Seagrasses Abundance: How Seagrass Variability Is Dependent on Genus and Estuary Type
|
|
0
|
155
|
November 18, 2021
|
|
Letard et al., Towards 3D mapping of seagrass meadows with topo-bathymetric lidar full waveform processing
|
|
0
|
192
|
August 2, 2021
|
|
Clarke, Kenneth et al., “Using hyperspectral imagery to investigate large‑scale seagrass cover and genus distribution in a temperate coast”
|
|
0
|
172
|
February 23, 2021
|