The scientific program of the conference includes the following areas:
Ecoanalytics and chemical monitoring of ecosystems
▪ physical and chemical methods for studying natural environments
▪ Impact of anthropogenic sources on the environment
▪ new approaches to study the composition of environmental objects
▪ assessment of the ecological state of the territories
Geoecology
▪ geoecology of urban areas and industrial facilities
▪ geoecology of natural and slightly polluted areas
▪ natural and man-made disasters, their consequences
Adsorption-catalytic processes for sustainable development
▪ catalytic methods for the disposal of industrial and domestic waste
▪ catalytic processing of renewable raw materials
▪ adsorbents and adsorption methods in ecotechnology
▪ decarbonization: CO2 emission and use, reduction of the carbon footprint
▪ hydrogen energy: production, transportation, storage and use of hydrogen
▪ Energy conversion and storage
Chemical technologies for environmental management
▪ creation of sorbents and other materials and devices for the elimination of environmental pollution
▪ ways to restore disturbed ecological systems
▪ green technologies
▪ ways to create nature-friendly technologies
Medico-biological aspects of environmental pollution
▪ study of biological objects and violations of human health in contaminated areas
▪ experimental studies of biological effects of external chemical and physical factors on various biological objects
▪ study of the mechanisms responsible for the biological effects of chemical and physical factors on living organisms
Geography and population ecology of animals and plants
biomonitoring of aquatic and terrestrial ecosystems
phytomonitoring and vegetation transformation
Technologies for monitoring and controlling the dynamics of ecosystems. Reduced carbon emissions
remote, stationary, mobile methods for assessing and analyzing greenhouse gas flows
carbon cycles in ecosystems
technologies for reducing carbon emissions
use of unmanned aerial vehicles (UAVs) for monitoring the dynamics of natural and artificial ecosystems
application of Earth remote sensing (ERS) data to assess the spatial structure of ecosystems
the use of a multispectral camera in order to optimize work on agricultural. territories