Universidade de Trás-os-Montes e Alto Douro-ko ikertzaileekin lankidetzan egindako argitalpenak (69)

2024

  1. Enhanced post-wildfire vegetation recovery in prescribed-burnt Mediterranean shrubland: A regional assessment

    Forest Ecology and Management, Vol. 561

  2. Estimating vegetation and litter biomass fractions in rangelands using structure-from-motion and LiDAR datasets from unmanned aerial vehicles

    Landscape Ecology, Vol. 39, Núm. 10

  3. FIREMAP: Cloud-based software to automate the estimation of wildfire-induced ecological impacts and recovery processes using remote sensing techniques

    Ecological Informatics, Vol. 81

  4. Improving Fire Severity Analysis in Mediterranean Environments: A Comparative Study of eeMETRIC and SSEBop Landsat-Based Evapotranspiration Models

    Remote Sensing, Vol. 16, Núm. 2

  5. Integrating Physical-Based Models and Structure-from-Motion Photogrammetry to Retrieve Fire Severity by Ecosystem Strata from Very High Resolution UAV Imagery

    Fire, Vol. 7, Núm. 9

  6. Karyotype diversification and evolution in Silene (Caryophyllaceae) representatives with sex chromosomes: taxonomic and biogeographical implications

    Zenodo

  7. Karyotype diversification and evolution in Silene (Caryophyllaceae) representatives with sex chromosomes: taxonomic and biogeographical implications

    Zenodo

  8. Linking crown fire likelihood with post-fire spectral variability in Mediterranean fire-prone ecosystems

    International Journal of Wildland Fire , Vol. 33, Núm. 4

  9. Prescribed burning mitigates the severity of subsequent wildfires in Mediterranean shrublands

    Fire Ecology, Vol. 20, Núm. 1

  10. Resistance of soil bacterial communities from montane heathland ecosystems in the Cantabrian mountains (NW Spain) to a gradient of experimental nitrogen deposition

    Science of the Total Environment, Vol. 920

2023

  1. Caution is needed across Mediterranean ecosystems when interpreting wall-to-wall fire severity estimates based on spectral indices

    Forest Ecology and Management, Vol. 546

  2. Characterization of biophysical contexts leading to severe wildfires in Portugal and their environmental controls

    Science of the Total Environment, Vol. 875

  3. Drivers and Trends in the Size and Severity of Forest Fires Endangering WUI Areas: A Regional Case Study

    Forests, Vol. 14, Núm. 12

  4. Estimates of fine fuel litter biomass in the northern Great Basin reveal increases during short fire-free intervals associated with invasive annual grasses

    Science of the Total Environment, Vol. 860

  5. First evaluation of fire severity retrieval from PRISMA hyperspectral data

    Remote Sensing of Environment, Vol. 295

  6. Fractional vegetation cover ratio estimated from radiative transfer modeling outperforms spectral indices to assess fire severity in several Mediterranean plant communities

    Remote Sensing of Environment, Vol. 290

  7. Fuel build-up promotes an increase in fire severity of reburned areas in fire-prone ecosystems of the western Mediterranean Basin

    Fire Ecology, Vol. 19, Núm. 1

  8. Relevance of UAV and sentinel-2 data fusion for estimating topsoil organic carbon after forest fire

    Geoderma, Vol. 430

  9. Short-term responses of ecosystem multifunctionality to fire severity are modulated by fire-induced impacts on plant and soil microbial communities

    Science of the Total Environment, Vol. 898

  10. The Effects of Fire Severity on Vegetation Structural Complexity Assessed Using SAR Data Are Modulated by Plant Community Types in Mediterranean Fire-Prone Ecosystems

    Fire, Vol. 6, Núm. 12