Increasing CO2 threatens human nutrition

Samuel S. Myers; Antonella Zanobetti; Itai Kloog; Peter Huybers; Andrew D.B. Leakey; Arnold J. 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

doi:10.1038/nature13179

Increasing CO₂ threatens human nutrition

Samuel S. Myers
, Antonella Zanobetti
, Itai Kloog
, Peter Huybers
, Andrew D.B. Leakey
, Arnold J. 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

Department of Environmental, Geoinformatics and Urban Planning Sciences

Research output: Contribution to journal › Article › peer-review

1205 Scopus citations

Abstract

Dietary deficiencies of zinc and iron are a substantial global public health problem. An estimated two billion people suffer these deficiencies, causing a loss of 63 million life-years annually. Most of these people depend on C 3 grains and legumes as their primary dietary source of zinc and iron. Here we report that C 3 grains and legumes have lower concentrations of zinc and iron when grown under field conditions at the elevated atmospheric CO 2 concentration predicted for the middle of this century. C 3 crops other than legumes also have lower concentrations of protein, whereas C 4 crops seem to be less affected. Differences between cultivars of a single crop suggest that breeding for decreased sensitivity to atmospheric CO 2 concentration could partly address these new challenges to global health.

Original language	English
Pages (from-to)	139-142
Number of pages	4
Journal	Nature
Volume	510
Issue number	7503
DOIs	https://doi.org/10.1038/nature13179
State	Published - 1 Jan 2014

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Myers, S. S., Zanobetti, A., Kloog, I., Huybers, P., Leakey, A. D. B., Bloom, A. J., Carlisle, E., Dietterich, L. H., Fitzgerald, G., Hasegawa, T., Holbrook, N. M., Nelson, R. L., Ottman, M. J., Raboy, V., Sakai, H., Sartor, K. A., Schwartz, J., Seneweera, S., Tausz, M., & Usui, Y. (2014). Increasing CO₂ threatens human nutrition. Nature, 510(7503), 139-142. https://doi.org/10.1038/nature13179

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title = "Increasing CO2 threatens human nutrition",

abstract = "Dietary deficiencies of zinc and iron are a substantial global public health problem. An estimated two billion people suffer these deficiencies, causing a loss of 63 million life-years annually. Most of these people depend on C 3 grains and legumes as their primary dietary source of zinc and iron. Here we report that C 3 grains and legumes have lower concentrations of zinc and iron when grown under field conditions at the elevated atmospheric CO 2 concentration predicted for the middle of this century. C 3 crops other than legumes also have lower concentrations of protein, whereas C 4 crops seem to be less affected. Differences between cultivars of a single crop suggest that breeding for decreased sensitivity to atmospheric CO 2 concentration could partly address these new challenges to global health.",

author = "Myers, \{Samuel S.\} and Antonella Zanobetti and Itai Kloog and Peter Huybers and Leakey, \{Andrew D.B.\} and Bloom, \{Arnold J.\} and Eli Carlisle and Dietterich, \{Lee H.\} and Glenn Fitzgerald and Toshihiro Hasegawa and Holbrook, \{N. Michele\} and Nelson, \{Randall L.\} and Ottman, \{Michael J.\} and Victor Raboy and Hidemitsu Sakai and Sartor, \{Karla A.\} and Joel Schwartz and Saman Seneweera and Michael Tausz and Yasuhiro Usui",

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Myers, SS, Zanobetti, A, Kloog, I, Huybers, P, Leakey, ADB, Bloom, AJ, Carlisle, E, Dietterich, LH, Fitzgerald, G, Hasegawa, T, Holbrook, NM, Nelson, RL, Ottman, MJ, Raboy, V, Sakai, H, Sartor, KA, Schwartz, J, Seneweera, S, Tausz, M & Usui, Y 2014, 'Increasing CO₂ threatens human nutrition', Nature, vol. 510, no. 7503, pp. 139-142. https://doi.org/10.1038/nature13179

TY - JOUR

T1 - Increasing CO2 threatens human nutrition

AU - Myers, Samuel S.

AU - Zanobetti, Antonella

AU - Kloog, Itai

AU - Huybers, Peter

AU - Leakey, Andrew D.B.

AU - Bloom, Arnold J.

AU - Carlisle, Eli

AU - Dietterich, Lee H.

AU - Fitzgerald, Glenn

AU - Hasegawa, Toshihiro

AU - Holbrook, N. Michele

AU - Nelson, Randall L.

AU - Ottman, Michael J.

AU - Raboy, Victor

AU - Sakai, Hidemitsu

AU - Sartor, Karla A.

AU - Schwartz, Joel

AU - Seneweera, Saman

AU - Tausz, Michael

AU - Usui, Yasuhiro

PY - 2014/1/1

Y1 - 2014/1/1

N2 - Dietary deficiencies of zinc and iron are a substantial global public health problem. An estimated two billion people suffer these deficiencies, causing a loss of 63 million life-years annually. Most of these people depend on C 3 grains and legumes as their primary dietary source of zinc and iron. Here we report that C 3 grains and legumes have lower concentrations of zinc and iron when grown under field conditions at the elevated atmospheric CO 2 concentration predicted for the middle of this century. C 3 crops other than legumes also have lower concentrations of protein, whereas C 4 crops seem to be less affected. Differences between cultivars of a single crop suggest that breeding for decreased sensitivity to atmospheric CO 2 concentration could partly address these new challenges to global health.

AB - Dietary deficiencies of zinc and iron are a substantial global public health problem. An estimated two billion people suffer these deficiencies, causing a loss of 63 million life-years annually. Most of these people depend on C 3 grains and legumes as their primary dietary source of zinc and iron. Here we report that C 3 grains and legumes have lower concentrations of zinc and iron when grown under field conditions at the elevated atmospheric CO 2 concentration predicted for the middle of this century. C 3 crops other than legumes also have lower concentrations of protein, whereas C 4 crops seem to be less affected. Differences between cultivars of a single crop suggest that breeding for decreased sensitivity to atmospheric CO 2 concentration could partly address these new challenges to global health.

UR - https://www.scopus.com/pages/publications/84902002714

U2 - 10.1038/nature13179

DO - 10.1038/nature13179

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SN - 0028-0836

VL - 510

SP - 139

EP - 142

JO - Nature

JF - Nature

IS - 7503

ER -

Increasing CO₂ threatens human nutrition

Abstract

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