Analyze

Denial → {Bhopal} →  stewardship → Disavowal

Disavowal is a way out for corporations who can no longer deny - they just aggressively ignore and separate, making it possible to still shout about their “goodness” and avoid taking responsibility for their risk. The scientist-President is doing her job as a scientist but positioned structurally within the hotbed of corporate manufacturers - how does this constrain her thinking and acting?

Ad campaigns - 360*, from big-name companies like O&M. Getting involved in the scientific community that is meant to be working against them to regulate and mitigate the risk they propose to society.

Not really portrayed in that way here. The scientists are portrayed as genuinely caring about society, but being humble about what their data can and cannot say and why, and it seems they see themselves as part of the society.

In the first phase it seems it was just being modern, perhaps productive. They deny there is any risk to be responsible for. The middle is about the self-managing of risks they can no longer deny exist. The final one has disavowed responsibility but position themselves as essential for life as we know it, so we don’t focus on the ethics.

The self-governance in the stewardship phase immediately after Bhopal was positioning as authority to manage their own risk to society and environment. And the ad for India had a hint of this - the plant having the authority to usher in a particular kind of modernity back in the 50s and 60s. To the extent that the corporate position of the Exposure Science org’s president counts as CSR, they are also working to define exposure and connect it with legislation.

St. Louis: Award winning (US Society of Environmental Journalists)  2001 journalism on health hazards in Weldon Springs.

https://www.riverfronttimes.com/stlouis/the-right-to-answers/Content?oi…

I'm interested in better understanding the ongoing geological processes that shape St. Louis and the Mississippi Valley region. So far, I've been looking into the history of seismicity in the region, focusing on the fascinating but little known history of the New Madrid earthquakes of 1811 and 1812 -- the most devastating earthquakes to have hit the US east of the Rockies. I've also been exploring how St. Louis and surrounding areas are dealing with the possibility of another earthquake occurring in the future. According to one article I read, one of the biggest uncertainties is what would happen to the heavily engineered Mississippi River in the case of another major tremblor. The shaking could break the levees, flooding wide areas along the river and creating cascading effects. The flow of the river might also reverse completely, as occurred during the New Madrid earthquakes.

On these possibilities and the lack of scientific consensus surrounding intraplate seismicity in this zone, see this article in The Atlantic.

On current efforts to create earthquake hazard maps in St. Louis, see this overview on the US Geological Survey site.

For a deeper dive into the history of the New Madrid earthquakes, see this book by historian of science Conevery Bolton Valencius. 

A brief essay about St. Louis' notorious eminent domain history--

--along with 2 recent St. Louis Post-Dispatch articles about "urban renewal" projects that are scheduled to reoccupy the Mill Flats area, which hosted the most notorious episode of displacement of African-American communities: the Chouteau Greenway project (will it serve or displace low-income St. Louisans?); and SLU's Mill Creek Flats high-rise project, which certainly will, and whose name seems to me an especially tone-deaf if gutsy move...

https://humanities.wustl.edu/features/Margaret-Garb-St-Louis-Eminent-Domain

https://www.stltoday.com/business/local/steelcote-developer-plans-more-apartments-brewery-space-in-million-midtown/article_811eaf96-76e1-5c20-a870-1e79abd3f06e.html

https://www.stltoday.com/business/local/chouteau-greenway-project-aims-to-knit-st-louis-neighborhoods-together/article_55fea4e6-6829-5c80-9168-313305b4e3bb.html

Contextual Articles
Landscapes with Purpose
One STL
Metropolitan St. Louis Sewer District
EPA - Green Infrastructure
Green City Coalition

Green Stormwater Infrastructure
Prior to the 1970's, many US cities managed stormwater through piped conveyance systems. Flooding was once considered the most significant risk associated with rainfall. System builders built water infrastructure to accommodate volume. Most cities in the US have what is called a combined sewer system (CSS). This system pipes stormwater and municipal wastewater together. The water is then treated and then released into receiving bodies. St. Louis is one of the rare cities (Baltimore, where my research is based is another) that has a municipal separated stormwater system (MS4). In a separated system, a system of pipes keeps stormwater separate from other wastewaters. 

In the 1970's ecological research, some of which came from the EPA's National Urban Research Program, began to demonstrate that nutrients in runoff were responsible for environmental pollution. In turn, municipal engineers transitioned to thinking about tools and techniques for decreasing this nutrient load. In St. Louis, the separated system operates under a federal consent decree with the EPA where the city must reduce the overall percentage of nutrients (nitrogen and phosphorus) carried through runoff. The most recent strategy for managing this problem is Green Stormwater Infrastructure (GSI). Although the problems associated with GSI are of local relevance, they are managed through state and federal governance strategies.

While GSI is difficult to define, many times installations feature landscaped elements that aim to mimic the pre-development hydrological processes of a given site. In urban areas, these projects often utilize vacant lands or reduce existing impervious surface cover. Many planners and community groups also suggest that GSI provides additional social benefits through an increase in community green space, reduction in urban heat island, and improved property values. 

This image from Missouri Coalition for the environment brings together the many suggested benefits of implementing these technologies. The diagram also provokes some questions that may interest us in our project; Does GSI represent a paradigmatic shift in techniques of stormwater management? Does natural or environmental mimicry in engineering projects act as a corrective to the anthropocene, or are these technologies merely a response? How are the social, economic, and technical benefits of GSI calculated and have attendent burdens been considered as well?