Earth Space Sciences (ESS) is a broad area of scientific inquiry that spans several AGU spheres of interest. Geographical discoveries, the wonders of nature, and the field of biogeochemistry are all included in Earth, planetary, and celestial scientific ideologies.
The Edgenuity Earth and Space Science Answers platform is devoted to providing an assortment of academic articles that communicate and clarify important sets of data and observations. These findings play a pivotal role in advancing our scientific comprehension of Earth, its environment, our solar system, and other planetary systems. The papers featured here contribute to a broader understanding of these observations, spanning methodology, theory, cartography, and modeling.
The primary focus of this division revolves around soliciting research papers and spotlighting methods, equipment, sensors, missions, data, and algorithms that enrich our understanding of Earth and space sciences. The authors’ core objective is to underscore the significance of these methodologies and data for the scientific community.
Objectives of Earth and Space Sciences
The principal repository and its alternatives house data and observations that either unveil previously unexplored phenomena or are indispensable in grasping geophysical processes. Newly validated data and observations align with ESS’s objectives.
Furthermore, databases and details that complement existing knowledge bases can fulfill the journal’s objectives if the volume of new data is substantial. These expanded data sets must enable innovative interpretations, bridge knowledge gaps, or refine the spectrum of plausible explanations.
When considering the protagonist-based environment, valuable databases include a substantial number of data points. Take, for example, the discussion of geochemistry, which may incorporate numerous tens within a range of over thirty to fifty data points. It may also encompass rock and mineral amplifications that constitute a sizable database. Conversely, when assessing multiple microanalytical outcomes derived from a sample count exceeding twenty, this entails employing analytical methods not limited to conventional techniques but may involve advanced, high-technology testing facilities scattered across the globe.
Scope of ESS:
As per recommendations from the ESS research zone, the core aim is to decipher the geophysical processes underlying observed phenomena in the Earth and space realms, as defined earlier. This predominantly involves research that evolves through the acquisition of evidence—observations and data, whether real or simulated. This study employs a variety of research methods, including computational analysis, laboratory investigations, and fieldwork. The process is iterative, marked by deduction, induction, and abstract reasoning.
Thus far, it is clear that the demarcation between the Earth and space domains can be nebulous at times. Manuscripts that straddle the precise definitions provided remain within the journal’s purview, as long as they align with the aforementioned objectives. Authors who are uncertain about the suitability of their manuscript are encouraged to reach out to the Editor-in-Chief for an initial assessment.