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News

  • November 2024

    Demonstration of the near-real time database

    The Sense4Fire project provided near-real time estimates of fire emissions for the Amazon/Cerrado for the year 2024. Thereby we provided three updates at the end of July, end of August and end of September 2024. This demonstrates the near-real time capabilities of the GFA-S4F and TUD-S4F approaches. The near-real time results of the fire emissions in 2024 have been presented and discussed with the scientific community at various scientific events:

    - Fire Modelling Development Brainstorming Workshop; Leverhulme Centre for Wildfire, Science and Society; 16-18 September 2024, Dartington Hall, UK

    - 13th EARSeL Forest Fires Special Interest Group Workshop; 19-20 September 2024, Milano, Italy

    - Future Focus Wildfires. Community forum on Earth Observation for wildfires monitoring; EUMETSAT; 26-28 November 2024, Darmstadt, Germany | [Presentation PDF]

     

     

  • October 2024

    Fire season in the Amazon 2024: Near-real time database online

    The Amazon experienced an exceptional fire season in 2024. The Sense4Fire project provided near-real time estimates of fire emissions during this season with the GFA-S4F and TUD-S4F approaches. Forest fires caused especially higher than normal emissions in Bolivia. Estimated emissions of carbon monoixde (CO) are between 56 (GFA-S4F) and 62 Tg (TUD-S4F) for the period August adn September 2024.

    Data overview and download

     

  • April 2024

    EGU General Assembly 2024

    The Sense4Fire project partners attended and presented at EGU General Assembly 2024 at the Vienna International Conference Center, Austria from the 14th-19th April

    Matthias Forkel (TUD) Multiple approaches for quantifying fuels, combustion dynamics, and regional fire emissions in the Amazon and Cerrado | [PDF]

    Niels Andela (BeZero) New insights on global fire extremes from object-based fire inventories | [PDF]

    Dave Van Wees (BeZero) Comparison and validation of state-of-the-art fire emissions models for the Amazon | [PDF]

     

     

     

  • May 2024

    Sense4Fires Experimental Database V0.2 online

    We release the second version of the Sense4Fire fire emissions estimates in the second version of the experimental database. The database contains dataset of fuel and fire properties and fire emissions for the study regions Amazon/Cerrado, southern Africa, eastern Siberia and southern Europe.

    Data overview and download

     

  • July 2023

    Sense4Fires Experimental Database V0.1 online

    We are very pleased to announce that the first results of the Sense4Fire project are available in an experimental database. The database contains outputs of the respective project partners and their developed methods for the study regions Amazon, southern Africa, and Siberia.

    The GFA-S4F approach provides fuel consumption and fire emissions derived from a fire type classification and Sentinel-3 and VIIRS FRP observations

    The TUD-S4F approach provides fuel loads, fuel consumption and fire emissions derived by integrating various Earth observation products in a data-model fusion approach

    The KNMI-S5p approach provides CO and NOx fire emissions derived from Sentinel-5p

    Update: Version 0.1 of the database has been replaced with version 0.2:

    Data overview and download

Dr. Alfred Awotwi is a Post-Doctoral Research Associate and Tutor in Water Science at Cardiff University, United Kingdom since 03/2021. His research is focused on the assessment of impacts of land use changes on ecosystems and hydrology. During his PhD program (2015-2019) Alfred worked on a World Bank sponsored project at the Africa Centre of Excellence, where he assessed the impact of anthropogenic activities and climate change on water balance components.

He received his PhD in 2019 from Kwame Nkrumah University of Science and Technology, Ghana. He was appointed as a Lecturer in 2018 at University for Development Studies, Ghana. In recent studies, he combined satellite observations and in-situ measurements to evaluate (i) the influence of climate change on streamflow (Awotwi et al., 2021), (ii) impacts of post-reclamation of soil by various types of mining on water balance components and sediment yield (Awotwi et al., 2021) and (iii) water balance responses to present and future land-use/land-cover changes (Awotwi et al., 2019). These studies have supported regional stakeholders to apply cost-effective adaptative strategies to reduce the impact of various land-uses and support sustainable land management.

References

  • Awotwi, A., Anornu, G.K., Quaye-Ballard, J.A., Annor, T., Nti, I.K., Odai, S.N., Arhin, E and Gyamfi, C., 2021. Impact of post-reclamation of soil by large-scale, small-scale and illegal mining on water balance components and sediment yield: Pra River Basin case study. Soil and Tillage Research. https://doi.org/10.1016/j.still.2021.105026.
  • Awotwi, A., Annor, T., Anornu, G.K., Quaye-Ballard, J.A., Agyekum, J., Ampadu, B.,Nti, I.K., Gyampo, M.A. and Boakye, E., 2021. Climate change impact on streamflow in a tropical basin of Ghana, West Africa. Journal of Hydrology: Regional Studies, 34, p.100805. https://doi.org/10.1016/j.ejrh.2021.100805
  • Awotwi, A., Anornu, G.K., Quaye-Ballard, J.A., Annor, T., Forkuo, E.K., Harris, E., Agyekum, J. and Terlabie, J.L., 2019. Water balance responses to land use/land cover changes in the Pra River Basin of Ghana, 1986–2025. CATENA, 182, p.104129. https://doi.org/10.1016/j.catena.2019.104129