The Self-Healing Infrastructure with Nature-Based Enhancements (SHINE) project at Jackson State University aims perform research that looks to improve the durability and resilience of earthen infrastructure through innovative, sustainable engineering solutions. This project investigates the use of biopolymer-treated earthen materials with self-healing capabilities, allowing soil structures to recover from damage when exposed to moisture. By integrating biopolymers—natural materials with unique bonding properties, SHINE seeks to develop self-repairing soils that enhance infrastructure stability, reduce maintenance costs, and improve environmental sustainability. Beyond advancing engineering science, SHINE will contribute to workforce development by engaging undergraduate students in research, incorporating findings into undergraduate and K-12 STEM education, and fostering collaborations with community colleges. This project aligns with NSF’s mission to promote scientific progress while enhancing national resilience against natural disasters, improving public safety, and supporting sustainable infrastructure development. The goal of this research project is to develop an innovative strategy for biopolymer-treated earthen materials that exhibit self-healing properties, improving the long-term stability of critical soil-based infrastructure. The research investigates the mechanisms of self-healing biopolymers in sandy, silty, and clayey soils under varying environmental condit