Big infrastructure and/as flexibility: The Sites Reservoir story

If constructed as planned, the Sites Reservoir Project will add roughly 1.85 billion m3 (1.5 million acre-feet) of storage capacity to California's water system. Per project proponents, however, the reservoir complex should be understood as infrastructure that would not only increase available...

Full description

Saved in:
Bibliographic Details
Main Authors: RANDLE, Sarah Priscilla, LINVILLE, David
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2024
Subjects:
Online Access:https://ink.library.smu.edu.sg/cis_research/163
https://ink.library.smu.edu.sg/context/cis_research/article/1162/viewcontent/jpe_5424_randle.pdf
Tags: Add Tag
No Tags, Be the first to tag this record!
Institution: Singapore Management University
Language: English
id sg-smu-ink.cis_research-1162
record_format dspace
spelling sg-smu-ink.cis_research-11622024-07-04T06:55:08Z Big infrastructure and/as flexibility: The Sites Reservoir story RANDLE, Sarah Priscilla LINVILLE, David If constructed as planned, the Sites Reservoir Project will add roughly 1.85 billion m3 (1.5 million acre-feet) of storage capacity to California's water system. Per project proponents, however, the reservoir complex should be understood as infrastructure that would not only increase available water supply but also provide the state's water network with an infusion of a vital systemic quality: flexibility. This article considers such discourses of flexibility through a case study of the Sites project, grounded in analysis of planning documents, government, think tank, and NGO reports, and media coverage from outlets across California. The resulting account shows how the ideal of the flexible system orients efforts to adapt the California water network to the heightened forms of hydrological variability associated with climate change. The analysis traces the emergence of the notion of a "flexibility crisis" plaguing the state's water network and elaborates the temporalities and spatialities characteristic of the systemic flexibility that Sites is understood to enhance. The project of increasing the water network's flexibility through the construction of new large-scale storage infrastructures like Sites is shown to be an undertaking that serves to sustain of many of the system's established (and notably inflexible) consumptive arrangements. The case thus demonstrates the importance of attending to how material properties like flexibility – commonly glossed as desirable system-scale qualities – come to be unevenly spatialized within infrastructural networks and across landscapes. 2024-05-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/cis_research/163 info:doi/10.2458/jpe.5424 https://ink.library.smu.edu.sg/context/cis_research/article/1162/viewcontent/jpe_5424_randle.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection College of Integrative Studies eng Institutional Knowledge at Singapore Management University drought political ecology of water settler colonialism resilience storage flexibility Infrastructure
institution Singapore Management University
building SMU Libraries
continent Asia
country Singapore
Singapore
content_provider SMU Libraries
collection InK@SMU
language English
topic drought
political ecology of water
settler colonialism
resilience
storage
flexibility
Infrastructure
spellingShingle drought
political ecology of water
settler colonialism
resilience
storage
flexibility
Infrastructure
RANDLE, Sarah Priscilla
LINVILLE, David
Big infrastructure and/as flexibility: The Sites Reservoir story
description If constructed as planned, the Sites Reservoir Project will add roughly 1.85 billion m3 (1.5 million acre-feet) of storage capacity to California's water system. Per project proponents, however, the reservoir complex should be understood as infrastructure that would not only increase available water supply but also provide the state's water network with an infusion of a vital systemic quality: flexibility. This article considers such discourses of flexibility through a case study of the Sites project, grounded in analysis of planning documents, government, think tank, and NGO reports, and media coverage from outlets across California. The resulting account shows how the ideal of the flexible system orients efforts to adapt the California water network to the heightened forms of hydrological variability associated with climate change. The analysis traces the emergence of the notion of a "flexibility crisis" plaguing the state's water network and elaborates the temporalities and spatialities characteristic of the systemic flexibility that Sites is understood to enhance. The project of increasing the water network's flexibility through the construction of new large-scale storage infrastructures like Sites is shown to be an undertaking that serves to sustain of many of the system's established (and notably inflexible) consumptive arrangements. The case thus demonstrates the importance of attending to how material properties like flexibility – commonly glossed as desirable system-scale qualities – come to be unevenly spatialized within infrastructural networks and across landscapes.
format text
author RANDLE, Sarah Priscilla
LINVILLE, David
author_facet RANDLE, Sarah Priscilla
LINVILLE, David
author_sort RANDLE, Sarah Priscilla
title Big infrastructure and/as flexibility: The Sites Reservoir story
title_short Big infrastructure and/as flexibility: The Sites Reservoir story
title_full Big infrastructure and/as flexibility: The Sites Reservoir story
title_fullStr Big infrastructure and/as flexibility: The Sites Reservoir story
title_full_unstemmed Big infrastructure and/as flexibility: The Sites Reservoir story
title_sort big infrastructure and/as flexibility: the sites reservoir story
publisher Institutional Knowledge at Singapore Management University
publishDate 2024
url https://ink.library.smu.edu.sg/cis_research/163
https://ink.library.smu.edu.sg/context/cis_research/article/1162/viewcontent/jpe_5424_randle.pdf
_version_ 1814047615835176960