Paper 247 of 383
Published June 1, 2026
Spacing relationships among geological anchors provide a measurable way to evaluate whether major Earth-system reference points are distributed randomly, clustered regionally, or organized through larger geometric relationships.
This paper evaluates anchor spacing through geographic distance, angular separation, great-circle relationships, chord geometry, regional clustering, and comparative planetary distribution.
Reference anchors include the Aegean region, Dead Sea Basin, Himalayan apex system, Mount Everest, Mariana Trench, western Pacific trench systems, and selected global geological extremes.
The objective is to determine whether anchor spacing remains useful as a comparative measurement layer after local geological explanations are preserved.
Within ABC Sequencing, spacing does not imply causation. It provides a repeatable basis for testing whether planetary anchors exhibit structured distribution.
The framework emphasizes a clean measurement question: where are the anchors, and how are they spaced?
This paper turns planetary anchors into measurable spacing relationships and prepares the sequence for great-circle comparison and repeated geometric testing.