Forests are essential in today's society and serve as sources for producing paper products, lumber, and fuelwood. Also, forests make freshwater from mountain watersheds, purify the air, offer habitat to wildlife, and offer recreational opportunities, among many other ecosystem services. Balance of ecological and recreational functions and accurate and precise information about forest structure and its biophysical parameters are needed to support informed decision-making and sustainable management.
Many natural resource managers' and policymakers' decisions regarding forests are linked with the geospatial data covered by conventional forest inventory methods. Remote sensing data fills the existing forest monitoring information gaps, particularly in many developing countries. Through remote sensing, information retrieved through space- and airborne acquisition methods offer a synoptic view over large or inaccessible areas. The Forest Resources Assessment supports global tree cover and forest land use monitoring. Monitoring programs implement a systematic framework to obtain information about forest cover changes and forest land-use changes globally.
How can satellite imagery assist in forest fire events close to urban environments?
Burnt area mapping and analytics of Mount Penteli, Athens Greece, using the very high resolution satellite imagery of Airbus, Pléiades Neo.
Carbon emissions are partially compensated by forest growth, forestation, and soil carbon pools' rebuilding following afforestation. However, the global distribution of terrestrial carbon sinks and sources is highly uncertain. Initiatives constraining forest carbon estimates inaccuracy are essential to developing new techniques and methodologies to support information needs of effective forest management and future climate mitigation actions.
Advances in close-range and remote sensing technologies drive innovations in forest resource assessments and monitoring at varying scales. Data acquired with airborne and spaceborne platforms provide us with higher spatial resolution, more frequent coverage, and increased spectral information. Recent developments in data include aerial photography, multi-spectral scanner (MSS), radar (Radio Detection and Ranging), Lidar (Light Detection and Ranging) laser, and Videography have helped detect, identify, classify, evaluate, and measure various forest cover types and changes.
Find out geospatial products for Forestry applications
Elevation datasets, web applications, and satellite imagery are available to support your projects!
Cloudeo supports its users in multiple areas of web and mobile applications on Forest Management and Monitoring, which include:
Assessing and managing wildlife habitat
Assessing slope failure and soil erosion
Assessment of climate change consequences, such as drought, bugs, and diseases
Canopy density estimation
Detecting deforestation and forest degradation
Evaluating and managing forest recreation resources
Forest roads planning/detecting
Forest trees' nutrient deficiency and/or water stress detection
Number of trees per unit area (density)
Reforestation and afforestation monitoring
Species composition
Timber harvesting planning and volume estimation
Tree height estimation and measurement
Counting of trees in urban areas and plantations
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