Exploring the Impacts of Elevated CO2 on Food Security: Nutrient Assimilation, Plant Growth, and Crop Quality
文献类型: 外文期刊
第一作者: Dakora, Felix D.
作者: Dakora, Felix D.;Li, Huihui;Zhao, Jun;Dakora, Felix D.;Li, Huihui;Zhao, Jun
作者机构:
关键词: Photosynthesis; N 2 fixation; Reduced plant nitrogen; Amino acids and nutrients
期刊名称:ENGINEERING ( 影响因子:11.6; 五年影响因子:13.1 )
ISSN: 2095-8099
年卷期: 2025 年 44 卷
页码:
收录情况: SCI
摘要: Despite its negative impacts on plant functioning, climate change benefits plants at the cellular level. For example, the stimulation of C3 photosynthesis by elevated CO2 can increase N2 fixation by 73% and grain yield by 10%-11%. The global elevated atmospheric CO2 concentration has already decreased the nitrogen content in C3 crop species and C3 woody vegetation by 14% and 21%, respectively, regardless of added nitrogen fertilizer. 15 N-feeding experiments have shown that, after 19 h under elevated CO2, the 15 N concentration in the stems, roots plus rhizomes, and whole plants of Scirpus olneyi (S. olneyi) decreased by 51%, 63%, and 74%, respectively. Moreover, S. olneyi showed reduced NH4 + assimilation under elevated CO2, which decreased the amino acid contents in the stems by 25.6% for glycine and 65.0% for serine, and that in the roots plus rhizomes by 2% for gamma-aminobutyric acid (GABA) and 80% for glutamate. Wheat grain protein has also been found to decrease by 7.4% under elevated CO2 due to reductions in threonine, valine, iso-leucine, leucine, and phenylalanine. The mineral nutrient contents in grains of rice and maize were similarly found to decrease under high CO2 by 1.0% and 7.1% for phosphorus, 7.8% and 2.1% for sulfur, 5.2% and 5.8% for iron, 3.3% and 5.2% for zinc, 10.6% and 9.9% for copper, and 7.5% and 4.2% for manganese, respectively. In general, mineral concentrations in C3 plants are predicted to decrease by 8% under elevated CO2, while total non-structural carbohydrates (mainly starch and sugars) are expected to increase. These decreases in grain protein, amino acids, and mineral nutrients could double the incidence of global protein-calorie malnutrition and micronutrient deficiency-especially in Africa, where agricultural soils are inherently low in nutrient elements. Additionally, the increase in total non-structural carbohydrates (mainly starch and sugars) in cereal crops could elevate diabetes incidence due to heavy reliance on starchy diets. The negative effects of elevated CO2 on rice, maize, and wheat-the world's three major staple crops-suggest an increase in global food insecurity with rising atmospheric CO2 concentration. (c) 2024 THE AUTHORS. Published by Elsevier LTD on behalf of Chinese Academy of Engineering and Higher Education Press Limited Company. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
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