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Hugelkultur is soil on wood. When stacked seven feet high, it provides all of the water and nutrition for a full garden.

The willow feeder system is a permaculture solution for managing human waste, developed by Paul Wheaton, that prioritizes safety, sustainability, and nutrient cycling. It is designed to be a "freaky-cheap" alternative to conventional septic systems and sewage treatment plants, utilizing readily available materials like garbage cans and sawdust. The system focuses on mummifying human waste in a dry environment within sealed garbage cans to prevent composting and the escape of pathogens. This dry environment also stops the loss of valuable carbon and nitrogen to the atmosphere, which is a common issue with hot composting. After two years of aging in the sealed cans, the resulting "willow candy" is pathogen-free and can be safely applied as fertilizer. While this nutrient-rich material could be used on any garden, it is best suited for "poop beasts" like willow, cottonwood, poplar, and bamboo, which can readily absorb the high nutrient content without harm. This system promotes a closed-loop approach, turning what is often considered waste into a valuable resource for growing beneficial plants.

The SKIP program, or Skills to Inherit Property, connects aspiring homesteaders ("Skippers") with landowners ("Otisies") seeking successors for their properties. Anyone interested in acquiring land for sustainable living can join by creating a free account on permies.com, a website dedicated to permaculture. Participants select "Badge Bits" (BBs) to complete from the PEP curriculum (Permaculture Experience according to Paul), which encompasses over 1,400 practical projects demonstrating essential permaculture skills. Skippers document their BB completion with photos and videos uploaded to permies.com for review and verification by the community. By completing BBs, Skippers earn progressively advanced badges – Sand, Straw, Wood, and Iron – signifying their skill level. These badges are displayed on their profiles, showcasing their dedication and expertise to potential Otisies. For hands-on learning, Skippers can attend the annual SKIP event at Wheaton Labs, which costs $2,250, or engage with the supportive community on the permies.com forums.

"Woodland" management, as described by Ben Law in his books The Woodland Way and The Woodland Year, promotes active human participation in shaping and nurturing the ecosystem. This approach prioritizes the long-term health and resilience of the woodland, recognizing its value not only for timber production but also for food, medicine, wildlife habitat, and overall ecological well-being. The choice of "woodland" over "forest" in describing Wofati design reflects a deliberate shift away from extractive forestry practices towards a more harmonious and sustainable relationship with the natural world. This distinction highlights the importance of language in shaping our understanding and approach to land management, emphasizing the need for conscious and mindful stewardship of the Earth's resources.

WOFATI structures are characterized by a thoughtful design that prioritizes passive systems and natural, locally sourced materials. The "two-skin" system, composed of a double layer of polyethylene membrane, encapsulates the earthen roof, providing a durable and waterproof barrier. The lower layer hugs the structure, while the upper layer defines the thermal mass surrounding it, with at least eight inches of dirt between the layers and sixteen inches on top. WOFATI designs emphasize a harmonious integration with the surrounding woodland, incorporating the "soil on wood" building technique. This method eliminates the need for a conventional concrete foundation, making construction faster and more affordable. A distinctive feature of WOFATI houses is the large gable roof on the downhill side, often incorporating glazing to allow light penetration, while at least 35% of the uphill wall features windows for optimal passive solar gain. This strategic placement and sizing of windows is crucial for maximizing natural light and regulating internal temperature, contributing to the effectiveness of Annualized Thermal Inertia.