📝 SummarXiv

Abstract

Worsening global challenges in the Anthropocene demand complex, adaptive solutions grounded in a systems-level understanding of coupled social and environmental dynamics. However, existing modeling approaches often fall short due to disciplinary silos, limited scalability, and the absence of shared ontological frameworks. Model-Based Systems Engineering (MBSE), when integrated with Hetero-functional Graph Theory (HFGT), offers a powerful methodology for modeling systems of systems while preserving subsystem heterogeneity and enabling cross-disciplinary integration. This paper presents the first application of the MBSE-HFGT methodology to environmental systems, using a series of worked examples involving flow through lake and land segments. These examples demonstrate how the approach enables consistent, scalable, and integrative modeling of complex environmental processes.