Big remotely sensed data application on forest fires In Morocco

Autores

  • Hicham Mharzi Alaoui National Center for Forest Climate Risk Management (High Commission for Water and Forests and Fighting against Desertification, Rabat, Morocco).
  • Fouad Assali Department of Cartography - Photogrammetry, Agronomic and Veterinary Institute Hassan II, Rabat, Morocco
  • Hicham Hajji Department of Cartography - Photogrammetry, Agronomic and Veterinary Institute Hassan II, Rabat, Morocco
  • Taoufik Aadel National Center for Forest Climate Risk Management (High Commission for Water and Forests and Fighting against Desertification, Rabat, Morocco)
  • Said Lahssini National School for forest Engineering, Salé, Morocco

DOI:

https://doi.org/10.37002/biodiversidadebrasileira.v9i1.1108

Palavras-chave:

Remote sensing, Spatial BigDATA, GoogleEarth Engine, forest fire, regeneration dynamics, fire severity, ecosystem restoration

Resumo

Forest fires are undeniably the most devastating scourge of forests in the Mediterranean region. The current evolution of this phenomenon and its foreseeable consequences threaten the sustainability of forest ecosystems and compromise the validity of the usual post-fire regeneration practices. To answer this, the application of wisely rehabilitation measures due to low post-fire resilience becomes important. This study aims to assess fire severity and the post-fire regeneration dynamic using remotely sensed data. The methodology proposed is based on the analysis of a multitemporal dataset of Landsat satellite imagery in Morocco between 1997 and 2016. The processing is carried out using Google Earth Engine (GEE) as web-based remote sensing platform, which facilitates the use, visualization, geosynchronization, and processing of different types of satellite images to produce maps and statistics of the burned area. Fire severity and vegetation regeneration monitoring study is based on the analysis of the temporal trajectories of different spectral bands and the use of different spectral indices (normalized burn ratio (NBR), delta normalized burn ratio (dNBR), the relativized delta normalized burn ratio (RdNBR), and the relativized burn ratio (RBR), normalized regenration index (NRI)). The outcome of this analysis shows contrasting trends and differents trajectories for the severity and regeneration that depend on the type of forest formation and species composition. Also, the developed methodology based on Google Earth Engine (GEE) to produce Landsat-based measures of fire severity and postfire regeneration dynamic is an important contribution to wildland fire research and monitoring.

Biografia do Autor

Hicham Mharzi Alaoui, National Center for Forest Climate Risk Management (High Commission for Water and Forests and Fighting against Desertification, Rabat, Morocco).

Dr. Hicham MHARZI-ALAOUI (PhD and Forest Engineer) he is the head of the risk analysis unit at the National Center for Climatic and Forest Risk Management in Rabat, Morocco, He received his Ph.D. degree in Geodetic sciences and engineering, geoinformatics, planning, water and food processes from the Hassan II veterinary and agronomic institut in 2017. At the same year, he joined the National school  for forest engineer as a visiting professor. He participated in several projects on the use of new technologies in climatic and forest risk management in Morocco and Latin America, he represented Morocco at several events in the European countries (France, Spain, Italy, Belgium) and in the USA.

Dr. MHARZI-ALAOUI’s research focuses on risk analysis, climat change, artificial intelligence, remote sensing and GIS analysis of ecological and environmental systems, land-use and land-cover change, environmental modeling and human-environment interactions. He is the author of more then 30 articles (peer-reviewed journal articles, book chapters, international reports and others). He is member of the international and the moroccan regional science association.

Fouad Assali, Department of Cartography - Photogrammetry, Agronomic and Veterinary Institute Hassan II, Rabat, Morocco

Dr. Assali Fouad (PhD and Agronomic  Engineer) he is the head of the of the National Center for Climatic and Forest Risk Management in Rabat, Morocco, He received his MBA from the School of Business Administration at Al AKHAWAYN UNIVERSITY. Mr. ASSALI has worked for disaster risk management for over 20 years, He received his Ph.D. degree in Geodetic sciences and engineering, geoinformatics, planning, water and food processes from the Hassan II veterinary and agronomic institut in 2016. And  joined the National school  for forest engineer as a Part-time professor. He managed several projects related to climatic and forest risk management in Morocco.

His recent research and development interests deal with natural disaster and risk management, integrated natural resources management, environmental assessment and climate change adaptation. Author of many publications (book chapters, scientific papers, expertise reports, documents, etc.),

Referências


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Publicado

15/05/2019

Edição

v. 9 n. 1 (2019): Wildfire Conference: Resumos

Seção

SUBTEMA 4

Licença

Copyright (c) 2021 Biodiversidade Brasileira - BioBrasil

Creative Commons License

Este trabalho está licenciado sob uma licença Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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