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Literature DB >> 29205382

The relationship between transpiration and nutrient uptake in wheat changes under elevated atmospheric CO₂.

Alireza Houshmandfar^1,2, Glenn J Fitzgerald^2,3, Garry O'Leary³, Sabine Tausz-Posch^2,4, Andrew Fletcher¹, Michael Tausz^5,6.

Abstract

The impact of elevated [CO2 ] (e[CO2 ]) on crops often includes a decrease in their nutrient concentrations where reduced transpiration-driven mass flow of nutrients has been suggested to play a role. We used two independent approaches, a free-air CO2 enrichment (FACE) experiment in the South Eastern wheat belt of Australia and a simulation study employing the agricultural production systems simulator (APSIM), to show that transpiration (mm) and nutrient uptake (g m-2 ) of nitrogen (N), potassium (K), sulfur (S), calcium (Ca), magnesium (Mg) and manganese (Mn) in wheat are correlated under e[CO2 ], but that nutrient uptake per unit water transpired is higher under e[CO2 ] than under ambient [CO2 ] (a[CO2 ]). This result suggests that transpiration-driven mass flow of nutrients contributes to decreases in nutrient concentrations under e[CO2 ], but cannot solely explain the overall decline.

Entities: Chemical Species

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Year: 2018 PMID： 29205382 DOI： 10.1111/ppl.12676

Source DB: PubMed Journal: Physiol Plant ISSN： 0031-9317 Impact factor: 4.500

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Cited

5 in total

1. Elevated CO2 and warming change the nutrient status and use efficiency of Panicum maximum Jacq.

Authors: Juliana Mariano Carvalho; Rafael Ferreira Barreto; Renato de Mello Prado; Eduardo Habermann; Roberto Botelho Ferraz Branco; Carlos Alberto Martinez
Journal: PLoS One Date: 2020-03-13 Impact factor: 3.240

2. The Mechanisms Responsible for N Deficiency in Well-Watered Wheat Under Elevated CO₂.

Authors: Jinjie Fan; Moshe Halpern; Yangliu Yu; Qiang Zuo; Jianchu Shi; Yuchuan Fan; Xun Wu; Uri Yermiyahu; Jiandong Sheng; Pingan Jiang; Alon Ben-Gal
Journal: Front Plant Sci Date: 2022-02-16 Impact factor: 5.753

3. Growth and Nutrient Utilization in Basil Plant as Affected by Applied Nutrient Quantity in Nutrient Solution and Light Spectrum.

Authors: Xiaowei Ren; Na Lu; Wenshuo Xu; Yunfei Zhuang; Satoru Tsukagoshi; Michiko Takagaki
Journal: Biology (Basel) Date: 2022-06-29

4. An optimistic future of C₄ crop broomcorn millet (Panicum miliaceum L.) for food security under increasing atmospheric CO₂ concentrations.

Authors: Xinrui Shi; Jie Shen; Bingjie Niu; Shu Kee Lam; Yuzheng Zong; Dongsheng Zhang; Xingyu Hao; Ping Li
Journal: PeerJ Date: 2022-09-07 Impact factor: 3.061

5. Arbuscular Mycorrhization Enhances Nitrogen, Phosphorus and Potassium Accumulation in Vicia faba by Modulating Soil Nutrient Balance under Elevated CO₂.

Authors: Songmei Shi; Xie Luo; Xingshui Dong; Yuling Qiu; Chenyang Xu; Xinhua He
Journal: J Fungi (Basel) Date: 2021-05-05

5 in total

The relationship between transpiration and nutrient uptake in wheat changes under elevated atmospheric CO2.

1. Elevated CO2 and warming change the nutrient status and use efficiency of Panicum maximum Jacq.

2. The Mechanisms Responsible for N Deficiency in Well-Watered Wheat Under Elevated CO2.

3. Growth and Nutrient Utilization in Basil Plant as Affected by Applied Nutrient Quantity in Nutrient Solution and Light Spectrum.

4. An optimistic future of C4 crop broomcorn millet (Panicum miliaceum L.) for food security under increasing atmospheric CO2 concentrations.

5. Arbuscular Mycorrhization Enhances Nitrogen, Phosphorus and Potassium Accumulation in Vicia faba by Modulating Soil Nutrient Balance under Elevated CO2.

The relationship between transpiration and nutrient uptake in wheat changes under elevated atmospheric CO₂.

2. The Mechanisms Responsible for N Deficiency in Well-Watered Wheat Under Elevated CO₂.

4. An optimistic future of C₄ crop broomcorn millet (Panicum miliaceum L.) for food security under increasing atmospheric CO₂ concentrations.

5. Arbuscular Mycorrhization Enhances Nitrogen, Phosphorus and Potassium Accumulation in Vicia faba by Modulating Soil Nutrient Balance under Elevated CO₂.