Sulfur Dioxide vs High-Fructose Corn Syrup: which is worse?

What is Sulfur Dioxide?

Sulfur dioxide (SO2) is a colorless gas used as a food preservative and antioxidant. It is the primary active form of the sulfite family of food additives. It is generated by burning sulfur or as a byproduct of certain chemical processes. In food use, it is released from various sulfite salts (E221-E228) and directly applied to some foods.

What is High-Fructose Corn Syrup?

High-fructose corn syrup (HFCS) is a liquid sweetener produced by enzymatically converting a portion of corn syrup's glucose to fructose. The most common forms are HFCS-55 (55% fructose, 45% glucose, used primarily in beverages) and HFCS-42 (42% fructose, used in processed foods). It became dominant in the US food supply in the 1970s-1980s.

Documented risks

Sulfur Dioxide: Same as sodium sulfite: sulfite-sensitive individuals (1% of population, 5% of asthmatics) can experience severe reactions. SO2 in wine has been identified as a contributor to wine-induced headache and asthmatic episodes. Occupational exposure to SO2 gas causes respiratory irritation, bronchospasm, and lung damage at higher concentrations — relevant to workers in winemaking and food processing but not typical dietary exposure levels.

High-Fructose Corn Syrup: HFCS has been at the center of one of nutrition science's most contentious debates for 30+ years. The core concern is that fructose is metabolized differently than glucose: fructose is processed primarily in the liver where it can be converted to fat (de novo lipogenesis), contributing to non-alcoholic fatty liver disease (NAFLD) and elevated triglycerides. A landmark 2004 paper by Bray, Nielsen, and Popkin in the American Journal of Clinical Nutrition proposed that the increase in HFCS consumption from the 1970s tracked with rising obesity rates. This hypothesis was widely publicized but contested; subsequent controlled research found that HFCS and sucrose produce similar metabolic effects calorie-for-calorie. However, the broader research on fructose metabolism supports metabolic concerns. A 2012 PLOS ONE study (Basu et al.) found higher sugar-sweetened beverage consumption associated with increased rates of metabolic syndrome and type 2 diabetes. A 2012 Nature commentary by Lustig, Schmidt, and Brindis ('The Toxic Truth About Sugar') argued fructose's hepatic metabolism makes it uniquely harmful — prompting significant scientific debate. Key established effects of high fructose intake include: increased visceral fat, elevated blood triglycerides, increased uric acid (gout risk), worsened insulin resistance, and accelerated NAFLD progression. These effects occur with high fructose intake from any source (HFCS or sucrose), making HFCS no inherently worse than sucrose at equivalent doses — but its ubiquity in US processed foods contributes to chronically elevated fructose exposure at a population level. Mercury contamination: in 2009, independent testing by the Institute for Agriculture and Trade Policy (IATP) and a study in Environmental Health found mercury traces in some HFCS samples from certain manufacturers using mercury-grade caustic soda. The industry has largely transitioned to mercury-free processing since these findings.