- Beyond Sustainability - The Case for Regenerative Design
- Understanding Place - Climate, Site, and Solar Geometry
- The Six Integrated Systems - An Overview
- Building with the Earth—Natural Materials
- Passive Solar Design - Heating and Cooling Without Machines
- Off-Grid Energy Systems - Power from the Sun
- Water - Catching, Storing, and Cycling
- Liquid Waste Treatment - Botanical Systems
- Food Systems—Buildings That Feed
- Community Design - Scaling Up
- The Integrated Design Process
- Appendix A: Glossary of Key Terms
- Appendix B: The Pangea Textbook Series
- Appendix C: Key Design Principles at a Glance
- The Regenerative Community Vision
- Site Assessment and Land Reading
- Land Use Law and Legal Frameworks
- Master Planning for Regenerative Communities
- Infrastructure Systems Integration
- Housing Typologies and Density Design
- Community Governance Structures
- Economic Models for Community Development
- Phased Development Strategy
- Community Resilience and Long-Term Stewardship
- Appendix A: Legal Entity Comparison Chart
- Appendix B: Community Design Checklist
- Appendix C: Glossary of Community Development Terms
Pangea Biotecture operates in the Taos, New Mexico bioregion — a high desert plateau at 7,000 feet elevation, with cold winters, intense summer monsoons, and extremes of sun and wind. This bioregion has shaped a distinctive approach to community development: thick-walled thermal mass buildings, acequia water systems, roof-harvested rainwater, and long traditions of community self-governance.
The design principles in this book are grounded in Taos but transferable. Every bioregion has its own climate patterns, land tenure traditions, water availability, and building material palette. The framework applies universally; the specific implementations will vary by place.
When Pangea designs a community in the Taos bioregion, we work with: 14 inches of annual precipitation, monsoon seasonality, abundant solar resource (330+ sunny days per year), strong north winds, clay-based soils with caliche layers, and existing acequia infrastructure in many valleys. These conditions shape every design decision from site layout to building orientation to water storage sizing.