%0 Journal Article %1 ISI:000336038800004 %A Loladze, Irakli %D 2014 %J ELIFE %K citeulikeExport maybenewrefsforco2 %R \%7B10.7554/eLife.02245\%7D %T Hidden shift of the ionome of plants exposed to elevated CO2 depletes minerals at the base of human nutrition %U http://dx.doi.org/\%7B10.7554/eLife.02245\%7D %V 3 %X Mineral malnutrition stemming from undiversified plant-based diets is a top global challenge. In C-3 plants (e. g. rice, wheat), elevated concentrations of atmospheric carbon dioxide (eCO(2)) reduce protein and nitrogen concentrations, and can increase the total nonstructural carbohydrates (TNC; mainly starch, sugars). However, contradictory findings have obscured the effect of eCO2 on the ionome - the mineral and trace-element composition - of plants. Consequently, CO2-induced shifts in plant quality have been ignored in the estimation of the impact of global change on humans. This study shows that eCO2 reduces the overall mineral concentrations (-8\%, 95\% confidence interval: -9.1 to -6.9, p< 0.00001) and increases TNC: minerals > carbon: minerals in C3 plants. The meta-analysis of 7,761 observations, including 2,264 observations at state of the art FACE centers, covers 130 species/cultivars. The attained statistical power reveals that the shift is systemic and global. Its potential to exacerbate the prevalence of `hidden hunger' and obesity is discussed.

@article{ISI:000336038800004, abstract = {{Mineral malnutrition stemming from undiversified plant-based diets is a top global challenge. In C-3 plants (e. g. rice, wheat), elevated concentrations of atmospheric carbon dioxide (eCO(2)) reduce protein and nitrogen concentrations, and can increase the total nonstructural carbohydrates (TNC; mainly starch, sugars). However, contradictory findings have obscured the effect of eCO2 on the ionome - the mineral and trace-element composition - of plants. Consequently, CO2-induced shifts in plant quality have been ignored in the estimation of the impact of global change on humans. This study shows that eCO2 reduces the overall mineral concentrations (-8\%, 95\% confidence interval: -9.1 to -6.9, p< 0.00001) and increases TNC: minerals > carbon: minerals in C3 plants. The meta-analysis of 7,761 observations, including 2,264 observations at state of the art FACE centers, covers 130 species/cultivars. The attained statistical power reveals that the shift is systemic and global. Its potential to exacerbate the prevalence of `hidden hunger' and obesity is discussed.}}, added-at = {2019-03-31T01:14:40.000+0100}, author = {Loladze, Irakli}, biburl = {https://www.bibsonomy.org/bibtex/2d5ffe05654ba16dbdbac306b4a4260a4/dianella}, citeulike-article-id = {13888219}, citeulike-linkout-0 = {http://dx.doi.org/\%7B10.7554/eLife.02245\%7D}, doi = {\%7B10.7554/eLife.02245\%7D}, interhash = {e09039c6e8394cfb35cd1a3e10b4e8fb}, intrahash = {d5ffe05654ba16dbdbac306b4a4260a4}, journal = {{ELIFE}}, keywords = {citeulikeExport maybenewrefsforco2}, month = may, posted-at = {2015-12-21 08:15:52}, priority = {2}, timestamp = {2019-03-31T01:16:26.000+0100}, title = {{Hidden shift of the ionome of plants exposed to elevated CO2 depletes minerals at the base of human nutrition}}, url = {http://dx.doi.org/\%7B10.7554/eLife.02245\%7D}, volume = {{3}}, year = {{2014}} }