CO2-driven nutrient loss in rice could lead to vast vitamin B deficiencies

Recent research has shown that rice grown under carbon dioxide levels that could be reached as soon as 2050 could lose 17-30% of its B vitamin content. A new study from Harvard T.H. Chan School of Public Health now estimates that this trend could put tens of millions of people at new risk of deficiencies in major B vitamins including thiamin, riboflavin, and folate.

Africa and Asia, regions that are heavily reliant on rice for nutrition, would be most affected, according to the study.

On average, rising carbon dioxide levels could lead to an additional 132 million people with folate deficiency, 67 million more with thiamin deficiency, and 40 million more with riboflavin deficiency, the study found. Quantifying one small portion of the health burden related to these changes, the study estimated that folate deficiency among mothers could lead to a 0.5% increase in neural tube birth defects, which translates roughly to an additional 27,900 life-years lost annually and 260 more deaths every year.

Because elevated CO2 concentrations are likely to reduce B vitamins in other crops beyond rice, the new findings likely underestimate the negative global health impacts, the authors wrote.

The study was published June 20, 2019 in GeoHealth. Co-authors included Samuel Myers, principal research scientist, planetary health, and research associate Matthew Smith.

Read a Harvard Gazette article: As Atmospheric Carbon Dioxide Rises, Nutrient Content of Rice Falls

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Major crops lose nutrients when grown in elevated carbon dioxide levels (Harvard Chan School news)