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Regenerative Infrastructures: postindustrial symbiotic waterscapes : The Case of Eutrophication of the Baltic SeaZeile, Deniss January 2023 (has links)
Algal blooms and the reduction of the seabed’s oxygen have a particularly negative impact on the Baltic Sea, caused by the eutrophication process. The process of eutrophication involves the gradual enrichment of a body of water, or portions of it, with minerals and nutrients, especially nitrogen and phosphorus. In Sweden, agriculture is the source of almost half of the nitrogen and phosphorus released into the environment. (Swedish Board of Agriculture 2013) As a result of eutrophication catalysed by climate change, marine biodiversity and fish stocks suffer also reducing the welfare of citizens. Around 30% of the total nitrogen inputs come from atmospheric sources, mostly combustion operations connected to shipping, road traffic, energy generation, and agriculture. (HELCOM 2017) Despite the fact that nutrient leakage has decreased in recent years, 97% of the surface of the Baltic Sea is still affected by eutrophication (HELCOM 2017). Taking this as an emergency call, research aims to investigate on how architecture can become a catalyst for environmental regeneration, resulting in a net positive outcome. The research refers to the theory of regenerative design, which has received particular attention in recent years in addressing constraints of sustainability. The design proposal aims to spatialize regenerative processes operating on different scales, from bio-material development to an urban masterplan. The research envisions a regenerative approach to the Baltic Sea by introducing a network of interventions operating on the transitional zone between agricultural fields and rivers transmitting nutrient pollution to the sea as part of its catchment basin. The design proposal integrates regenerative strategies learned from case studies and a literature review. Research speculates on how to reduce excessive nutrient enrichment in soil, water and decrease anthropogenic nutrient loading, while engaging with the local community through eco-recreation. Enlisting nature as a guide and referring to biomimicry as the model, the network of various functional zones suggests bioremediation of polluted agricultural fields. At the same time proposal providide alternative platforms for cultivation and recreational infrastructures closely related to an adjusted urban fabric applied in the territory of Umeå in Sweden.
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