Start Here: Validate Your Site Before You Build

This platform exists to prevent irreversible mistakes by checking:

• Scale (how big the impact really is)

• Permanence (how hard it is to undo)

• Governance (rules, neighbors, insurance, HOA, and liability)

If you want inspiration or “one-size-fits-all” layouts, this site won’t fit.

If you want a clear go / hold / refuse decision before you invest time and money, start with the router.

• What this is: A decision system for permaculture design — not a blog, not a course

• What it does: Helps you validate a project before you commit

• What it refuses: Certainty without constraints

• What you’ll get: A classification outcome + next best path

This site is built to reduce false certainty.

If your situation includes regulation, structural changes, safety risk, or neighbor impact, the correct outcome may be:

• HOLD (pause until verified)
  
  

• REFUSE (do not proceed as currently defined)
  
  

The goal is not motivation. The goal is valid decisions.

Permaculture design operates on a set of core principles that guide the planning and implementation of sustainable systems:

Observation: Before starting any project, extensive observation of the natural environment is essential. This includes understanding the patterns of wind, water flow, sunlight, and the interactions between different species.

Energy Efficiency: Permaculture design emphasizes minimizing energy use by optimizing the placement of resources, such as using gravity for water flow and orienting buildings to maximize natural heating and cooling.

Sustainable Resource Use: This involves using renewable resources and creating closed-loop systems where waste is minimized and outputs from one system serve as inputs for another.

Integration, Not Segregation: Instead of isolating elements, permaculture integrates them, such as combining livestock with crop production to enhance soil fertility naturally.

Permaculture design is important because it offers practical solutions to some of the most pressing environmental, economic, and social challenges we face today:

Environmental Impact: By promoting biodiversity, reducing waste, and conserving resources, permaculture design helps mitigate climate change and environmental degradation.

Economic Benefits: Permaculture systems are cost-effective in the long term as they reduce reliance on external inputs like water, energy, and synthetic fertilizers.

Social and Community Impact: Permaculture fosters stronger communities by promoting local food production, resource sharing, and collaboration.

The core principles of permaculture design, as outlined by David Holmgren, include:

• Observe and Interact: Understanding the environment through observation helps create designs that align with natural processes.

• Catch and Store Energy: Efficiently capturing and storing resources like water and sunlight ensures long-term sustainability.

• Obtain a Yield: Every element in a permaculture system should produce something beneficial, whether it’s food, energy, or habitat for wildlife.

• Apply Self-Regulation and Accept Feedback: Systems should be designed to be self-regulating, reducing the need for constant human intervention.

• Use and Value Renewable Resources: Prioritizing renewable resources over non-renewable ones is crucial for sustainability.

• Produce No Waste: Waste is seen as a resource in the wrong place; permaculture design seeks to minimize waste through recycling and reusing.

• Design from Patterns to Details: Broad patterns are observed and understood before moving on to specific details, ensuring the design is holistic.

• Integrate Rather Than Segregate: Combining elements increases the efficiency and resilience of the system.

• Use Small and Slow Solutions: Small, gradual changes are more sustainable and easier to manage than large, rapid shifts.

• Value Diversity: Biodiversity is key to resilience in permaculture design, providing natural pest control, pollination, and more.

• Use Edges and Value the Marginal: The edges between different ecosystems are often the most productive, so they are highly valued in permaculture.

• Creatively Use and Respond to Change: Adaptability and flexibility are essential for long-term success in permaculture.

Businesses can implement permaculture design in several ways:

1. Sustainable Landscaping: Designing office landscapes or corporate farms using permaculture principles can enhance biodiversity, reduce water usage, and improve employee well-being.

2. Resource Management: Applying permaculture’s energy efficiency and waste reduction strategies can lower operational costs and increase sustainability.

3. Community Engagement: Businesses can use permaculture principles to engage with local communities, promoting shared resources and local food production.

There are numerous successful examples of permaculture design worldwide:

1. The Zaytuna Farm in Australia: Run by Geoff Lawton, this permaculture site is a model of sustainable agriculture and has transformed degraded land into a thriving ecosystem.

2. The Permaculture Research Institute: Another initiative by Geoff Lawton, it serves as a hub for permaculture education and showcases practical applications of permaculture design.

3. Urban Permaculture Projects: Cities like Detroit and San Francisco have implemented urban permaculture projects, turning vacant lots into productive community gardens that provide food security and green spaces.