Down To Earth

Regenerative soil as the solution for an innovative bio-based region to restore ecological systems.

Student Report (2022)
Author(s)

A.P. Amieva Gomez (TU Delft - Architecture and the Built Environment)

T. Kanj (TU Delft - Architecture and the Built Environment)

I.E.A. van der Bijl (TU Delft - Architecture and the Built Environment)

A. Eapen (TU Delft - Architecture and the Built Environment)

C. Engel (TU Delft - Architecture and the Built Environment)

Contributor(s)

Alex Wandl – Mentor (TU Delft - Environmental Technology and Design)

C.E.L. Newton – Mentor (TU Delft - Spatial Planning and Strategy)

Faculty
Architecture and the Built Environment
Copyright
© 2022 Ana Paula Amieva Gomez, Tara Kanj, Isa van der Bijl, Ann Eapen, Claudia Engel
More Info
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Publication Year
2022
Language
English
Copyright
© 2022 Ana Paula Amieva Gomez, Tara Kanj, Isa van der Bijl, Ann Eapen, Claudia Engel
Graduation Date
06-04-2022
Awarding Institution
Delft University of Technology
Project
['AR2U086 R&D Studio – Spatial Strategies for the Global Metropolis']
Programme
['Architecture, Urbanism and Building Sciences | Urbanism']
Faculty
Architecture and the Built Environment
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Abstract

‘Down to Earth’ proposes regenerative soil as the foundation of an innovative bio-based region in South Holland, that connects society and economy on all scales while restoring ecological systems. Agricultural Practices that have heavily relied on tilling and the heavy use of chemical fertilizers has reduced the quality of the topsoil compromising both food security and the carbon sequestration capacity of the soil. Additionally, Industries along the port of Rotterdam that is heavily dependent on fossil fuel have polluted the land it is based on and emitted large amounts of carbon. The most powerful technology we have at hand to draw down this carbon load is healthy soil that can support plant life and micro-organisms naturally.

The strategy proposed in this report focuses on retaining the economic prosperity of South Holland while remediating the soil that supports it. Based on an understanding of the current land uses in South Holland and the level of disruption it causes to the natural systems within the soil, the region has been abstracted into pixels. Each spatial type would have a specific intervention that focuses on keeping the soil in it open and alive.

These interventions are further strengthened by creating links that support the exchange of biodegradable material and clean energy between stakeholders. This would serve as an additional economic incentive to support the pressing need to mitigate environmental damage. The guiding principles that make this transition possible include renewable energy generation, eco-sensitive development, nature-based solutions, valorization of biodegradable waste, and using policies to change consumer patterns and reformulate development trends. The proposal, along with the layers of soil data that support it is a case of why soil remediation through bio-based economic activity is vital to sustainable growth and a vision of what development within planetary boundaries would include.

Files

Booklet_0504.pdf
(pdf | 292 Mb)
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