This study introduces the Heart-Based Resonant Field (HBRF) framework as a unifying, multi scale hypothesis linking planetary electromagnetic structure, biological systems, and long-term sociopolitical organization. Integrating evidence from developmental biology, geophysics, cardiovascular physiology, and statistical spatial analysis, the work examines whether large scale environmental gradients, particularly geomagnetic and geomorphic features, may act as persistent contextual modulators of human physiology and collective behavior. A central empirical case is the Algeria–Libya boundary, which exhibits sustained alignment with a narrow lithologic transition over ~100 km. Under conservative probabilistic modeling, this alignment deviates from random expectation by orders of magnitude, reaching effectively zero probability under null assumptions of spatial independence. This statistical rejection of randomness motivates the exploration of structured environmental constraints as contributing factors in geopolitical stabilization. The framework advances a non deterministic, physiologically mediated pathway whereby geomagnetic variability influences autonomic regulation and heart rate variability, potentially biasing population level stress responsiveness, decision making, and adaptive behavior over long timescales. These cumulative effects, interacting with geomorphic and ecological constraints, may contribute to the emergence and persistence of geopolitical boundaries. Importantly, the HBRF model does not replace established historical or sociopolitical explanations but situates them within a physically structured planetary context. The theory generates explicit, testable predictions across disciplines, including correlations between geomagnetic environments and physiological markers, and preferential boundary persistence along geophysical gradients. Within a Medical Hypotheses framework, this work establishes a quantitatively grounded and biologically plausible direction for investigating crossscale coupling between Earth’s physical fields and human organizational systems.
Keywords: Heart-Based Resonant Field (HBRF), Geomagnetic variability, Geopolitical boundary formation, Heart rate variability (HRV), Environmental gradients, Non-random spatial alignment.
Citation: Alabdulgader, A. (2026). Heart-Based Resonant Field (HBRF) Theory as a Framework for Planetary–Biological–Geopolitical Morphogenesis: “Hundred-Sigma Deviations in Quantifying Non-Randomness in Geopolitical Boundaries”. I J cardio & card diso; 7(2):1-9. DOI : https://doi.org/10.47485/2998-4513.1056