Newswise — Boston, MA — At the elevated levels of atmospheric CO2 anticipated by around 2050, crops that provide a large share of the global population with most of their dietary zinc and iron will have significantly reduced concentrations of those nutrients, according to a new study led by Harvard School of Public Health (HSPH). Given that an estimated two billion people suffer from zinc and iron deficiencies, resulting in a loss of 63 million life years annually from malnutrition, the reduction in these nutrients represents the most significant health threat ever shown to be associated with climate change.
“This study is the first to resolve the question of whether rising CO2 concentrations—which have been increasing steadily since the Industrial Revolution—threaten human nutrition,” said Samuel Myers, research scientist in the Department of Environmental Health at HSPH and the study’s lead author.
The study appears online May 7, 2014 in Nature.
Some previous studies of crops grown in greenhouses and chambers at elevated CO2 had found nutrient reductions, but those studies were criticized for using artificial growing conditions. Experiments using free air carbon dioxide enrichment (FACE) technology became the gold standard as FACE allowed plants to be grown in open fields at elevated levels of CO2, but those prior studies had small sample sizes and have been inconclusive.
The researchers analyzed data involving 41 cultivars (genotypes) of grains and legumes from the C3 and C4 functional groups (plants that use C3 and C4 carbon fixation) from seven different FACE locations in Japan, Australia, and the United States. The level of CO2 across all seven sites was in the range of 546-586 parts per million (ppm). They tested the nutrient concentrations of the edible portions of wheat and rice (C3 grains), maize and sorghum (C4 grains) and soybeans and field peas (C3 legumes).
The results showed a significant decrease in the concentrations of zinc, iron, and protein in C3 grains. For example, zinc, iron, and protein concentrations in wheat grains grown at the FACE sites were reduced by 9.3%, 5.1%, and 6.3% respectively, compared with wheat grown at ambient CO2. Zinc and iron were also significantly reduced in legumes; protein was not.
The finding that C3 grains and legumes lost iron and zinc at elevated CO2 is significant. Myers and his colleagues estimate that 2-3 billion people around the world receive 70% or more of their dietary zinc and/or iron from C3 crops, particularly in the developing world, where zinc and iron deficiency is already a major health concern.
C4 crops appeared to be less affected by higher CO2, which is consistent with underlying plant physiology, as C4 plants concentrate CO2 inside the cell for photosynthesis so they might be expected to be less sensitive to extracellular changes in CO2 concentration.
The researchers were surprised to find that zinc and iron varied substantially across cultivars of rice. That finding suggests that there could be an opportunity to breed reduced sensitivity to the effect of elevated CO2 into crop cultivars in the future.
In addition to efforts to reduce CO2 emissions, breeding cultivars with reduced sensitivity to CO2, biofortification of crops with iron and zinc, and nutritional supplementation for populations most impacted could all play a role in reducing the human health impacts of these changes, said Myers. “Humanity is conducting a global experiment by rapidly altering the environmental conditions on the only habitable planet we know. As this experiment unfolds, there will undoubtedly be many surprises. Finding out that rising CO2 threatens human nutrition is one such surprise,” he said. Other HSPH authors include Antonella Zanobetti, Itail Kloog, and Joel Schwartz.
Support for the study was provided by the Bill & Melinda Gates Foundation; the Winslow Foundation; the Department of Agriculture (Australia); the International Plant Nutrition Institute (Australia); the Grains Research and Development Corporation (Australia); the Ministry of Agriculture, Forestry and Fisheries (Japan), the National Science Foundation (NSF IOS-08-18435); USDA NIFA 2008-35100-044459; research at SoyFACE was supported by the U.S. Department of Agriculture Agricultural Research Service; Illinois Council for Food and Agricultural Research (CFAR); U.S. Department of Energy’s Office of Science (BER) Midwestern Regional Center of the National Institute for Climatic Change Research at Michigan Technological University, under Award Number DEFC02-06ER64158; and the National Research Initiative of Agriculture and Food Research Initiative Competitive Grants Program Grant no. 2010-65114-20343 from the USDA National Institute of Food and Agriculture. Early stages of this work received support from Harvard Catalyst │ The Harvard Clinical and Translational Science Center (National Center for Research Resources and the National Center for Advancing Translational Sciences, National Institutes of Health Award 8UL1TR000170-05).
“Increasing CO2 threatens human nutrition,” Samuel S. Myers, Antonella Zanobetti, Itai Kloog, Peter Huybers, Andrew D. B. Leakey, Arnold Bloom, Eli Carlisle, Lee H. Dietterich, Glenn Fitzgerald, Toshihiro Hasegawa, N. Michele Holbrook, Randall L. Nelson, Michael J. Ottman, Victor Raboy, Hidemitsu Sakai, Karla A. Sartor, Joel Schwartz, Saman Seneweera, Michael Tausz, Yasuhiro Usui, Nature, May 7, 2014, DOI: 10.1038/nature13179
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Nature, May 7, 2014; Bill & Melinda Gates Fdn; Winslow Fdn; Dpt of Agric, Australia; Grains Res & Dev Corp; Intl Plant Nutritn Institute; Min of Agriculture, Forestry & Fisheries, Japan; Natl Science Fdn; USDA Agri Research Service; Illinois Cl for Food & Agric Res; US Dept of Energy, Office of Sci Midwestn Reg Ctr of the Natl Institute for Clim Chg Res, Michigan Technological University; Natl Res Init of Agri & Food Res Initiative Competitive Grants Prog, USDA Nat Instititute of Food & Agriculture; Harvard Catalyst, Harvard Clinical & Translational Science Ctr; NSFIOS-08-18435; USDA NIFA2008-35100-044459; DEFC02-06ER64158; USDA2010-65114-20343;; NIH 8UL1TR000170-05