Science of Climate Change (SCC)
Science of Climate Change (SCC) is an independent, peer-reviewed, open-access scholarly journal dedicated to advancing scientific understanding of the Earth’s climate system and its governing processes. The journal publishes original research articles, review papers, methodological studies, data analyses, and scholarly discussion addressing climate variability and change across spatial and temporal scales.
SCC welcomes scientifically grounded contributions from a broad range of climate-related disciplines, including atmospheric sciences, meteorology, hydrology, land-atmosphere interactions, oceanic and cryospheric processes, solar and astronomical influences on climate, climate data analysis, and Earth-system modelling.
Established in 2021, SCC has developed into an international publication operating under a not-for-profit framework supported by moderate article processing charges that sustain editorial management, peer review coordination, and digital dissemination. All published content is freely accessible worldwide immediately upon release, ensuring broad scientific exchange without subscription barriers. Since 2025, the journal has been published by the SCC Publishing Association.
Stein Storlie Bergsmark Nikolaos Malamos
SCC Publishing SCC’s Editorial Board
Wandrol et al. : Calculation of Thermal Energy Accumulation from the Behaviour of the Temperature Field in the Near-Surface Layers of the Earth’s Crust
We focused on geomechanics/geophysics and modelling the mechanical behaviour of the Earth’s crust (lithospheric plates). The main theme was the investigation of exogenous factors in crustal phenomena. Exogenous factors include e.g. tidal forces, cyclic changes in crustal temperature caused by the Sun, repeated changes in atmospheric air pressure, wave energy transfer from water bodies (seas…
Šálek: Radiation Data from CERES Measurements – do they Agree with Current Climate Dogma?
The term “greenhouse effect” describes a crucial property of certain atmospheric gases that can absorb long-wave radiation and re-radiate it, partially back to Earth’s surface. This process keeps the surface temperature approximately 30 °C warmer than it would be otherwise. The primary radiatively active (“greenhouse”) gases include water vapor, carbon dioxide, methane, and nitrogen monoxide.…
Mearns: Bond Cycles and the Influence of The Sun on Earth’s Climate
At the heart of Bond’s work are two important geological / geochemical processes: Continue reading …
Pokornẏ et al. : Relationships: Sun – Water – Vegetation – Climate
The principal role of water and vegetation in the distribution of solar energy and in local and global climate is shown on basis of measured data. Poor knowledge of the function of plants in climate formation results in erroneous decision-making in landscape management. The principles of solar energy distribution in the landscape can be understood…
Zharkova: Modern Grand Solar Minimum and its Impact on the Terrestrial Environment
The recent progress with understanding a role of the solar background magnetic field in defining solar and with quantifying the observed magnitudes of magnetic field at different times activity enable reliable long-term prediction of solar activity on a millennium timescale. This approach revealed a presence of not only 11 year solar cycles but also of…