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The U.S. subsidiary of Formosa Plastics Corp (1301.TW) has agreed to pay $7.5 million and to cooperate with plaintiffs to settle an antitrust lawsuit alleging the company and others curbed the supply of a widely used chemical in a scheme to inflate prices. (Scarcella, August 16, 2023)

“When the government of Taiwan planned for the future of Taiwan several decades ago, it focused exclusively on industrially stimulating the economy. It has been promoting that kind of economic growth and development since the 1970s, making it appear as if industrial growth is the only factor to consider with regard to the country’s future. In the name of progress and economic revitalization, state-led industrialization walks hand in hand with private corporations. Together, they compete for the world’s largest petrochemical plants. The industrial development policy of Taiwan is one of the factors in the loss of Taiwan’s coastal wetlands, the subsiding of land from industrial water withdrawal and sand mining, and the increase of toxic air emissions, contaminated water, and toxic buildup of metals in soils (Wu and Wu 171–2). This “macroeconomy” policy ruins bioregions.” (Chang, 2023, p. 171)” 

The Taiwanese Formosa Plastics Corporation (FPC) is the tenth largest petrochemical company in the world. Focused primarily on the production of polyvinyl chloride (PCV) resins (Wu 2022), the FPC is the main subsidiary of the larger Formosa Plastics Group (FPG), a vertically integrated, global conglomerate that owns businesses in biotechnology, electronics, and logistics, among others (Wikipedia 2020). Formosa’s four main subsidiaries (all petrochemical companies) account for an estimated 10 percent of Taiwan’s gross domestic product (Wu 2022). The most important sites for production are Formosa plants in Yunlin County (Central Taiwan), Point Comfort (Texas), and Baton Rouge (Louisiana). Enabled by the shale gas boom discussed above, plants at all three sites are subject to ongoing expansions, including a proposed $200 million plant in Texas, and the $12 billion industrial complex in Louisiana. Formosa also operates a steel plant in Central Vietnam that is the focal point of much local and transnational activism.

Formosa’s current economic and cultural standing is deeply connected to Taiwan's history of industrialization. The Formosa Plastics Corporation and Group were founded by Wang Yung-ching and his brother Wang Yung-Tsai in Kaohsiung in 1954. Born under Japanese occupation, Wang Yung-ching made a living selling and delivering rice as a young boy, and later operated his own rice shop as a teenager. Eventually, Wang transitioned into the lumber business and benefited from market liberalization following the end of Japanese colonial rule (Lin 2016). However, since US military forces destroyed one of his mills during WWII, Wang received $800,000 from USAID, which he used as capital to found Formosa Plastics (Shah 2012). Until his death in 2008, Wang became one of Taiwan’s richest persons and remains widely known as the “god of management” (Huang 2008).

In Taiwan, conglomerates like the Formosa Plastics Group are called guanxiqiye (“related enterprises''), a colloquial term for tightly-controlled, family-owned businesses. According to anthropologist Ichiro Numazaki (1993), the expression emerged from 1970s business discourse and quickly became a self-identifying status symbol for many corporations (Numazaki 1993, 485). Numazaki argues that Chinese trading tradition (emphasizing partnerships) and Taiwan’s vexed relationship to Japan and China contributed to the rise of family-owned enterprises. Daughter Cher Wang has co-founded important businesses outside of the petrochemical sector, including consumer electronics company HTC. However, the Formosa family has also experienced a series of conflicts: in 1996, Wang Yung-Ching expelled his son Winston for extramarital affairs, who later became involved in ongoing efforts to disclose his father’s substantial tax evasion (Offshore Alert 2018). Today, the Formosa Group is in the process of transitioning key positions away from family members (Taipei Times 2021).

Formosa’s operations have further been shaped by Taiwanese politics and cross-strait relations with China. Considered a moderate liberalizer, Wang held close ties to Taiwan’s democratic party, but also continued to push for expansion in the Chinese mainland during his lifetime, often leading to conflicts between Taiwanese and Chinese administrations (Lin 2016, 81). In 1973, Wang’s plans to build a large petrochemical complex in Taiwan were halted by the authoritarian Kuomintang (KMT) government, but following the lifting of martial law in the mid-1980s, Formosa made a second attempt, suggesting to build the complex in the scenic Yilan County (Ho 2014). Rising concerns over petrochemical development and pollution, however, led to mass protests by local residents and fisher people, creating a landmark moment for Taiwan's larger democracy movement (Ho 2014). In face of this opposition, Wang arranged secret trips to mainland China, and later announced that the plant would be built on the island of Haitsang in Xiamen province. Yet, economic sanctions between China and Taiwan, combined with pressure by the nationalist KMT government, eventually led to construction of the vast petrochemical complex in the rural and impoverished Yunlin County in Central Taiwan (Lin 2016, 82).

BIOETHNOGRAPHY: “Thus, instead of combining objects of inquiry (biology and culture), I conceived of bioethnography as combining two different methods for knowing the world (Mol 2002, 153)—ethnographic observation and biochemical sampling—in order to ask and answer research questions that could not be addressed through either method alone. This methodological focus involves exploring how our data collection and analysis might be shaped if we suspended the nature/culture binary” (Roberts, 2021, p. 2)

“bioethnography asks, what if we created numbers otherwise, upending the cooked data that reinforces inequality? In fact, bioethnography can enable us to identify structural forces, such as NAFTA and the global health apparatus itself, that are part of the bodily processes that make ill health. In other words, while we know that all data is cooked, it matters how it’s cooked.” (Roberts, 2021, p. 5)

Roberts describes their ongoing bioethnographic collaboration with a team of exposure scientists who are working in environmental engineering and health. Though ethnography is not easily enumerated, Roberts emphasizes that integrating it with quantitative data is worthwhile and makes for “better numbers”. As an example, Roberts describes 3 bioethnographic projects on neighborhoods, water distribution, and employment and chemical exposures. These projects were part of a longitudinal birth-cohort study in Mexico City called Early Life Exposures in Mexico to ENvironmental Toxicants (ELEMENT), created to understand the effects of early-life nutrition and exposure to toxicants (such as lead and phenols). Overtime, this project was expanded to include the study of new toxins (e.g. BPAS, mercury, and fluoride) and new health concerns (e.g. obesity, meopause, sleep).

Roberts’ focus on neighborhoods was produced from the ethnographic observation that neighborhood characteristics might influence exposure levels. Following this observation, Roberts’ and ELEMENT researchers sorted participants by neighborhood and identified significant differences in blood-lead levels. Additionally, Roberts applied previous ethnographic observation and scholarship to argue that high levels of toxicants like lead correlate with the capacity of neighborhoods to withstand other dangers, such as police violence. These findings prompted the development of two new bioethnographic project centered on water and the effect of neighborhood dynamics on health.