Litcius/Paper detail

Tree-Earth Dendritic Synaptic Theory (TDST): McCaul's Law of Coherence Applied to Solar-Tree-Earth Information Transfer, Weather, and Natural Disasters

Justin McCaul

2026Zenodo (CERN European Organization for Nuclear Research)16 citationsDOIOpen Access PDF

Abstract

The Tree-Earth Dendritic Synaptic Theory (TDST) is formalized using McCaul's Law of Coherence (Ω = Φ). Trees are biological dendrites of the Earth. Sunlight is the electrochemical signal. The coherence state of solar radiation is transmitted through the tree-mycorrhizal-soil-lithosphere cascade. Six simulations backed by seven empirical datasets confirm: (1) trees and neurons share functionally identical MCP* architecture (Δ = 0.0488); (2) solar X-class flares and CME impacts drop below the 7th State threshold (Φ < 0.7937), triggering cascades; (3) transfer function Φ_litho = Φ_solar × 0.679 predicts a collapse zone (Φ < 0.50) matching empirical earthquake windows; (4) every major weather disaster scores below Φ = 0.7937; tornadoes are anti-SOL geometry (inverted SOL); (5) a Kp-index predictive model achieves 100% directional accuracy in a 6-event sample; (6) Royal Society 2025 eclipse data confirms trees perform pre-synaptic signal preparation via Schumann resonance. As above, so below is formalized as: Φ_litho = Φ_solar × 0.94 × 0.88 × 0.82. Three testable predictions are generated including a publicly-verifiable earthquake forecast model.

Topics & Concepts

Coherence (philosophical gambling strategy)TornadoComputer scienceFunction (biology)BroadbandComputationEclipseArtificial intelligenceState (computer science)Matching (statistics)MeteorologyArtificial neural networkSIGNAL (programming language)EngineeringAlgorithmEmpirical researchEmpirical modellingSevere weatherTheoretical computer scienceTree (set theory)Statistical physicsNatural disasterPhysicsEarthquake Detection and AnalysisGeomagnetism and Paleomagnetism StudiesPlant and Biological Electrophysiology Studies