Editors Overview

ijat maintains an Editorial Board of practicing researchers from around the world, to ensure manuscripts are handled by editors who are experts in the field of study.

Focus and Scope

About the Journal

International Journal of Atmosphere is a peer-reviewed open-access journal launched in 2024 that aims to publish original research articles, review papers, technical notes, and short communications on various aspects of the atmosphere. The Journal welcomes original research articles, review papers, technical notes, and short communications that present new insights and advances in atmospheric science, with a particular emphasis on interdisciplinary studies that integrate different fields of science to address complex atmospheric problems. The journal aims to promote the dissemination of high-quality research that can inform policy and practice in areas such as air quality management, climate change mitigation and adaptation, and weather forecasting. All submitted manuscripts undergo a rigorous peer-review process to ensure the scientific soundness and relevance of the published articles.

Focus and Scope

    • Atmospheric physics and chemistry: Atmospheric composition, Greenhouse gases, Ozone depletion, Acid rain, Aerosols, Atmospheric particles, Stratospheric chemistry, Tropospheric chemistry, Photochemistry, Atmospheric dynamics, Atmospheric radiation, Atmospheric modeling, Air quality, Atmospheric pollutants, Atmospheric trace gases, Carbon cycle, Climate feedbacks, Emission sources, Nitrogen cycle, Chemical kinetics.
    • Meteorology and climatology: Weather forecasting, Climate modeling, Climate change, Climate variability, Extreme weather events, Atmospheric circulation, Hydrological cycle, Precipitation patterns, Atmospheric dynamics, Ocean-atmosphere interactions, Monsoons, Heatwaves, Cold snaps, Droughts, Floods, Climate feedbacks, Climate, sensitivity, El Niño-Southern Oscillation (ENSO), North Atlantic Oscillation (NAO), Madden-Julian Oscillation (MJO).
    • Atmospheric modeling: Numerical weather prediction, Climate models, Air quality models, Atmospheric chemistry models, Earth system models, Data assimilation, Model evaluation, Parameterization, High-performance computing, Sensitivity analysis, Model intercomparison, Ensemble modeling, Uncertainty quantification, Aerosol-cloud interactions, Radiative transfer modeling, Climate scenarios, Climate sensitivity, Hydrological models, Chemical transport models, Regional climate modeling.
  • Atmospheric remote sensing: Satellites, Radiometers, Lidar, Radar, GPS radio occultation, Radiance measurements, Infrared remote sensing, Microwave remote sensing, Ozone monitoring, Aerosol remote sensing, Cloud remote sensing, Land surface temperature, Total column water vapor, Atmospheric profiles, Wind measurements, Earth observation, Airborne remote sensing, Ground-based remote sensing, Atmospheric sounding, Spectral measurements.
  • Air quality and pollution: Particulate matter, Ozone, Nitrogen oxides, Sulfur dioxide, Carbon monoxide, Volatile organic compounds (VOCs), Hazardous air pollutants, Indoor air pollution, Outdoor air pollution, Emissions sources, Transport and dispersion of pollutants, Urban air pollution, Industrial emissions, Agricultural emissions, Health effects of air pollution, Atmospheric deposition, Acid rain, Air pollution regulations, Air quality monitoring, Air pollution mitigation and control.
  • Atmospheric boundary layer: Planetary boundary layer, Surface layer, Atmospheric turbulence, Air-sea interactions, Land-atmosphere interactions, Boundary layer meteorology, Energy budget, Momentum transfer, Scalar transfer, Surface roughness, Heat flux, Water vapor flux, Carbon dioxide flux, Trace gas exchange, Vegetation-atmosphere interactions, Air pollution dispersion, Stable boundary layer, Convective boundary layer, Surface energy balance, Boundary layer parameterization.


  • Atmospheric physics
  • Atmospheric chemistry
  • Meteorology
  • Climatology
  • Atmospheric modeling
  • Air quality and pollution
  • Atmospheric remote sensing
  • Atmospheric boundary layer
  • Climate change
  • Environmental science
  • Weather forecasting
  • Climate variability
  • Atmospheric composition
  • Earth system science
  • Extreme weather events
  • Climate sensitivity
  • Planetary boundary layer
  • Air-sea interactions
  • Land-atmosphere interactions
  • Atmospheric data analysis.