Of Unfrozen Waters

Of Unfrozen Waters adaptation for the deep thaw Retreating sea ice and coastlines are resulting in habitat loss for human and non-human species. A deep investigation into the flux of Arctic materials reveals a need for temporal and malleable infrastructural interventions, which are inherent to the o...

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Bibliographic Details
Main Author: Schurke, Berit Hendrickson
Other Authors: Monacella, Rosalea
Format: Thesis
Language:English
Published: 2022
Subjects:
arctic
breakwaters
climate change
coastal adaptation
ecology
walrus
Landscape architecture
Arctic
Bering Strait
Pacific
Climate change
Sea ice
walrus*
Online Access:https://nrs.harvard.edu/URN-3:HUL.INSTREPOS:37371667
Description
Summary:Of Unfrozen Waters adaptation for the deep thaw Retreating sea ice and coastlines are resulting in habitat loss for human and non-human species. A deep investigation into the flux of Arctic materials reveals a need for temporal and malleable infrastructural interventions, which are inherent to the overarching habitat transition strategy for human and non-human species within the Bering Strait region. The Pacific Walrus, a keystone Arctic species, is considered the benthic rototiller of the Arctic and is understood as the primary protagonist. The project offers a lexicon of sedimentary and hydrological analysis-interventions that work with and slow down erosive forces while prioritizing the long-term survival of the walrus as it begins a habitat shift northwards following sea ice retreat. The design of ephemeral and ecologically responsive infrastructure serves to challenge current practices of static coastal adaption interventions. In so doing, it takes an acupunctural and interim approach to mitigating habitat loss and stimulating intertidal ecological growth.

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